Download - Zxdu68 t301(v4.1r01m01) User Manual
ZXDU68 T301DC Power System
User Manual
Version 4.1R01M01
ZTE CORPORATIONZTE Plaza, Keji Road South,Hi-Tech Industrial Park,Nanshan District, Shenzhen,P. R. China518057Tel: (86) 755 26771900Fax: (86) 755 26770801URL: http://ensupport.zte.com.cnE-mail: [email protected]
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Copyright © 2006 ZTE CORPORATION.
The contents of this document are protected by copyright laws and international treaties. Any reproduction or distribution ofthis document or any portion of this document, in any form by any means, without the prior written consent of ZTE CORPO-RATION is prohibited. Additionally, the contents of this document are protected by contractual confidentiality obligations.
All company, brand and product names are trade or service marks, or registered trade or service marks, of ZTE CORPORATIONor of their respective owners.
This document is provided “as is”, and all express, implied, or statutory warranties, representations or conditions are dis-claimed, including without limitation any implied warranty of merchantability, fitness for a particular purpose, title or non-in-fringement. ZTE CORPORATION and its licensors shall not be liable for damages resulting from the use of or reliance on theinformation contained herein.
ZTE CORPORATION or its licensors may have current or pending intellectual property rights or applications covering the subjectmatter of this document. Except as expressly provided in any written license between ZTE CORPORATION and its licensee,the user of this document shall not acquire any license to the subject matter herein.
ZTE CORPORATION reserves the right to upgrade or make technical change to this product without further notice.
Users may visit ZTE technical support website http://ensupport.zte.com.cn to inquire related information.
The ultimate right to interpret this product resides in ZTE CORPORATION.
Revision History
Revision No. Revision Date Revision Reason
1.1 2009–09–01 1. Produce update2. First edition
Serial Number: sjzl20092662
Contents
About this Manual .............................................. i
Safety Instructions............................................1Safety Signs .................................................................. 1
Safety Precautions.......................................................... 2
Overview...........................................................5System Introduction ....................................................... 5
System Configuration...................................................... 6
Features........................................................................ 7
Functions ...................................................................... 8
Technical Specifications ................................................... 9
Compliant Standards......................................................14
System Structure and Components .................15System Structure ..........................................................15
Cabinet Dimensions and Weight...................................15
Equipment Structure Description .................................17
Installation Slots Configuration....................................19
AC Distribution Unit Structure .........................................19
DC Distribution Unit Structure .........................................22
DC Surge Arrester .........................................................25
Location DC Surge Arrester.........................................25
DC Surge Arrester Indicators ......................................25
Rectifier .......................................................................26
Location ...................................................................26
Components Description.............................................26
Indicators Description ................................................27
Input Output Socket ..................................................28
Monitoring Unit .............................................................29
Location ...................................................................29
Components Description.............................................29
Indicators Description ................................................30
Boards Location.........................................................31
SIB Interfaces Description ..........................................32
MPB Interfaces Description .........................................37
IP Board Interfaces Description ...................................38
System Operations ..........................................41Circuit Breakers, Fuses and Switches Location ...................41
System Startup .............................................................42
System Shutdown .........................................................42
LLVD Control Device Description ......................................42
Monitoring Unit Operation Instructions...........45Operation Interface........................................................45
Menu Hierarchy .............................................................46
Main Menu....................................................................47
Operation Authority .......................................................48
Querying Information.....................................................49
Querying Real-Time Operation Information ...................49
Querying Real-Time Alarm Information.........................53
Querying History Alarm Information .............................54
Querying Operation Log..............................................56
Querying Discharge Record .........................................57
Querying Peak Value Record........................................58
Querying Maintenance Record .....................................60
Entering Ctrl Main Menu .................................................62
Modifying Parameter Value..............................................64
System Parameters........................................................66
Bat Cap(Ah)..............................................................66
COM Bauds...............................................................67
Device No.................................................................67
Password..................................................................68
Language .................................................................68
Alarm Sound and Auto Alarm ......................................68
Buzz Switch .....................................................68
Auto Alarm.......................................................69
AuxSwitch Set...........................................................69
SMR Pulled Alm .........................................................70
Current Date and Time...............................................70
Current Date ....................................................70
Current Time....................................................70
Fuse ValveVol............................................................71
Load Branches ..........................................................71
Battery and Load Shunt..............................................72
Battery Shunt...................................................72
Load Shunt ......................................................72
Battery Parameters........................................................73
Float and Equalized Charging Voltage ...........................73
Float Vol. .........................................................73
Equal Vol. ........................................................73
Cur. Limited..............................................................74
Equalized Charge and Equalized Period .........................74
Equal Func. ......................................................74
Equal Period .....................................................75
Maximum, Minimum, and Last Equalized Charge
Hours...............................................................75
Equ.Min Hours ..................................................75
Equ.Max Hours .................................................76
Equ.LastHours ..................................................76
Equal Cap.Min., Equal Vol.Min., and Eq.End-
Cur.Coef. ..........................................................77
Equal Cap.Min. .................................................77
Equal Vol.Min. ..................................................77
Eq.EndCur.Coef. ................................................78
BatVol Min. ...............................................................78
LLVD 1 and LLVD2 Voltage and Control .........................79
1-Shut Vol. ......................................................79
2-Shut Vol. ......................................................79
LLVD-1 Ctrl ......................................................80
LLVD-2 Ctrl ......................................................80
Auto Test, Period, and Start Time.................................81
Auto Test .........................................................81
Test Period .......................................................81
Test StartTime..................................................81
Test Voltage and Max Test Hours..................................82
Test Vol. ..........................................................82
Test Max.Hours.................................................82
Battery Test Time and Period.......................................83
Bat.Det.Time....................................................83
Bat.Det.Period ..................................................83
Temperature Compensation Coefficient and Current
Limit Temperature Compensation Coefficient .........84
Temp.Coeff.......................................................84
Cur.Temp.Co.....................................................85
Temp.Volt.Max. and Temp.Volt.Min...............................85
Battery Temperature Threshold ...................................86
Bat.Temp.Max. .................................................86
Bat.Temp.Min. ..................................................87
Battery Discharge Threshold and Start Volt. Deviation
in Trans............................................................87
Bat.Disch.Valve.................................................87
Volt.Dev...........................................................87
Work Mode ...................................................................88
Safe Mode ................................................................88
Save Mode................................................................89
Free Mode ................................................................90
Selecting Work Mode..................................................90
Smr Limit Num..........................................................92
Save Management .........................................................93
Rotate Period ............................................................93
NonSave Delay..........................................................93
Setting Auto Save......................................................94
Setting Temp NonSave Mode.......................................95
Setting Perm NonSave Mode .......................................97
Manual Detect...........................................................98
Output Relay Control.................................................... 100
Output Relay........................................................... 100
Output Relay........................................................... 100
All Ctrl ................................................................... 102
Single Ctrl .............................................................. 104
Adjustment Parameters ................................................ 105
AC Cur.Slope........................................................... 105
DC Vol.Zero ............................................................ 106
Output Current Offset and Slope................................ 106
DC Cur.Zero ................................................... 106
DC Cur.Slope .................................................. 107
Bat. Vol.Zero .......................................................... 107
Bat. Cur.Zero .......................................................... 108
Bat. Cur.Slope......................................................... 108
Bat. Temp.Zero ....................................................... 109
Alarm Parameters........................................................ 109
Setting Alarm Attributes ........................................... 109
AC Vol.Max.and AC Vol.Min. ...................................... 112
AC Vol.Max. ................................................... 112
AC Vol.Min. .................................................... 112
DC Vol.Max.and DC Vol.Min....................................... 113
DC Vol.Max. ................................................... 113
DC Vol.Min. .................................................... 113
Environment Temperature/Humidity Threshold ............ 114
Env.Temp.Max. ............................................... 114
Env.Temp.Min. ................................................ 114
Env.Hum.Max. ................................................ 115
Env.Hum.Min. ................................................. 115
Operation and Maintenance Management........................ 116
SMR ON... .............................................................. 116
SMR OFF................................................................. 118
Setting Float Charge ................................................ 119
Setting Equalized Charge.......................................... 121
Set Test ................................................................. 122
Delete Records............................................................ 123
Load Run Para............................................................. 125
Load All Para............................................................... 126
Downloading Program .................................................. 127
Download Font ............................................................ 128
Other Instructions ....................................................... 129
Shortcut Menu ........................................................ 129
Help Message Interface ............................................ 130
Debug Message Interface ......................................... 131
Screen Saver .......................................................... 131
Emergency Handling and Maintenance ..........133Emergency Handling .................................................... 133
Emergency Handling Principle.................................... 133
Emergency Handling of AC Distribution Unit ................ 134
Emergency Handling of DC Distribution Unit ................ 134
Emergency Handling of Monitoring Unit ...................... 134
Emergency Handling of Rectifier ................................ 135
Maintenance ............................................................... 135
Routine Maintenance................................................ 135
Monthly Maintenance ............................................... 137
Installing and Uninstalling Monitoring Unit with System
Operating ....................................................... 139
Installing and Uninstalling Rectifiers with System
Operating ....................................................... 141
Adding Load with System Operating ........................... 143
Uninstalling Top Cap ................................................ 143
Storage Requirements.................................................. 147
Alarm Handling .............................................149Overview of Alarm Handling .......................................... 149
Alarm Description .................................................... 149
Muting Alarm Buzzer................................................ 149
Monitoring Unit Troubleshooting..................................... 150
Operating Principles and Functions ...............153System Operating Principles.......................................... 153
Operating Principles of AC Distribution Unit ..................... 154
Operating Principles of DC Distribution Unit..................... 154
Operating Principles of Rectifier ..................................... 155
Functions of the Monitoring Unit .................................... 157
Monitor Networking Mode .............................159
Parameter List...............................................161
Alarm List......................................................165
Explanations of Common Terms ....................169AC Distribution Part ..................................................... 169
DC Distribution Part ..................................................... 170
Rectifier Part............................................................... 170
Battery Part ................................................................ 171
Communication Part..................................................... 172
Term List .......................................................173
Electrical Connection Diagram.......................175
Figures ..........................................................179
Tables ...........................................................183
About this Manual
Purpose of thisManual
ZXDU68 T301 (V4.1R01M01) DC power system has a -48VDC out-put. The system adopts three-phase five-wire AC input. Whenconfigured to full capacity, it can be equipped with six ZXD240050A switching mode rectifiers, forming a power supply system of300A output capacity.
This document is one of the following manuals for the equipment:
� ZXDU68 T301 (V4.1R01M01) DC Power System InstallationManual
This manual provides the information to install the equipment.This manual is intended for the installation personnel.
� ZXDU68 T301 (V4.1R01M01) DC Power System User Manual
This manual describes the application, features, technical spec-ifications, appearance and structure, operating principles, net-working mode and the monitoring unit operation instructions,operation and maintenance. This manual is applicable to everyuser.
What is in thisManual
This manual contains the following chapters and appendixes:
Chapter/Appendix Summary
Chapter 1 SafetyInstructions
Describes the safety instructions andprecaution for the installation, maintenanceand operation of the system.
Chapter 2 OverviewDescribes the configuration, features,functions, technical specifications, andcompliant standards of the system.
Chapter 3 SystemStructure andComponents
Describes the system structure and thecomponents of the system.
Chapter 4 SystemStartup andShutdown
Describes the procedures of the system startupand shutdown.
Chapter 5 MonitoringUnit OperationInstructions
Describes how to query the system informationas well as how to set parameters on themonitoring unit.
Chapter 6 EmergencyHandling andMaintenance
Describes the emergency faulty handling andmaintenance of the system.
Chapter 7 AlarmHandling Describes the alarm handling of the system.
Appendix A OperatingPrinciples andFunctions
Describes the operating principles andfunctions of the system and the components.
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ZXDU68 T301 User Manual
Chapter/Appendix Summary
Appendix B MonitorNetworking Mode
Describes the monitor networking mode of thesystem.
Appendix CParameter List
Provides the default and range of theparameters.
Appendix D AlarmList Provides a list of the alarms.
Appendix EExplanations ofCommon Terms
Explains some common terms related to DCpower systems.
Appendix F Term List Provides a list of term abbreviations relatedto the system.
Appendix G ElectricalConnection Diagram
Provides the diagram of the electricalconnections.
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C h a p t e r 1
Safety Instructions
Table of ContentsSafety Signs ...................................................................... 1Safety Precautions.............................................................. 2
Safety SignsTABLE 1 SAFETY SIGNS
Safety Signs Meaning
Danger: Indicates an imminently hazardoussituation, which if not avoided, will result in deathor serious injury. This signal word should belimited to only extreme situations.
Warning: Indicates a potentially hazardoussituation, which if not avoided, could result indeath or serious injury.
Caution: Indicates a potentially hazardoussituation, which if not avoided, could result inminor or moderate injury. It may also be used toalert against unsafe practices.
Note: Indicates a potentially hazardous situation,which if not avoided, could result in injuries,equipment damage or interruption of services.
Erosion: Beware of erosion.
Electric shock: There is a risk of electric shock.
Electrostatic: The device may be sensitive tostatic electricity.
Microwave: Beware of strong electromagneticfield.
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ZXDU68 T301 User Manual
Safety Signs Meaning
Laser: Beware of strong laser beam.
No flammables: No flammables can be stored.
No touching: Do not touch.
No smoking: Smoking is forbidden.
Safety PrecautionsThis chapter describes safety precautions for the installation,maintenance and operation of the system.
Read the safety instructions before any operation of the equip-ment. The safety precautions mentioned in this manual only serveas a supplement to the local safety codes.
Only trained professionals are allowed to install, operate and main-tain the equipment. ZTE bears no liability to the consequences in-curred by violation of the general safety operation requirements,or violation of the safety standards for designing, manufacturingand using the equipment.
The precautions for operating the power supply products are listedin Table 2.
TABLE 2 SAFETY PRECAUTIONS
S/N Precautions Requirement Possible Danger
1 High voltage
� Observe thelocal safetycodes duringthe equipmentinstallation.The installationpersonnel mustbe qualified forhigh voltageand AC poweroperations.
� Never wearany conductiveobject, such aswatch, handchain, braceletor ring duringthe operation onthe equipment.
Direct contact orindirect contact withhigh voltage andmains through dampobject will endangerthe operator’s life.
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Chapter 1 Safety Instructions
S/N Precautions Requirement Possible Danger� Prevent any
moisture fromentering theequipmentduringoperations
2 DC shortcircuit
ZXDU68 T301system is a powersupply product ofconstant DC voltage.DC short circuit mustbe avoided.
DC short circuit cancause fatal dangerand damage to theequipment.
3Connecting ordisconnectingpower cable
� Switch OFFthe powersupply beforeconnecting ordisconnecting apower cable.
� Beforeconnecting acable, makesure that thecable and itslabel are inaccordance withthe requirement.
Performing powercable operationwith power ON willcause fatal danger tooperation personneland damage to theequipment.
4 Tools safety
When operatinghigh-voltageequipment, toolssafety must beconsidered. Insulatethe tools to preventshort circuit.
Tools-caused shortcircuit can causefatal danger tooperation personneland equipment.
5 Electrostaticdamage
Insulate theuncovered metalsto prevent shortcircuit.
Static electricitygenerated by humanbody may damagecomponents.
6 Temperatureeffect
In the case ofenvironmentover-temperature,improve theventilation ofthe equipmentto keep thesuitable operatingenvironment for thesystem.
Over-temperaturewill affect normaloperation and servicelife of the powerproduct.
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ZXDU68 T301 User Manual
S/N Precautions Requirement Possible Danger
7 Operation onbattery
� Beforeperforming anyoperation onbattery, readthe safetyprecautionson the batterymanual.
� Perform batterycable connectionaccording toinstructions.Avoid shortcircuit andelectrolyteleakage.
� Therecommendedoperationenvironmenttemperature forbattery rangesfrom 20℃ to25℃.
� The electrolyteleakage of batterycan corrupt PCBand cause shortcircuit.
� When theenvironmenttemperature isbelow 20℃, theefficiency andperformance ofthe battery willbe affected; whenthe environmenttemperature isover 25℃, thebattery service lifewill be affected.
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C h a p t e r 2
Overview
Table of ContentsSystem Introduction ........................................................... 5System Configuration.......................................................... 6Features............................................................................ 7Functions .......................................................................... 8Technical Specifications ....................................................... 9Compliant Standards..........................................................14
System IntroductionZXDU68 T301 system is a 50 A rectifier series power supply sys-tem with -48 V DC output. It is an intelligent and unattendedpower equipment widely used in commutation, microwave , opti-cal transmission equipment and others communication systems.
In full configuration, the system can have six ZXD2400 (V4.3) rec-tifiers, which form a power system with a maximum of 300 A out-put. Figure 1 shows ZXDU68 T301 system appearance.
FIGURE 1 ZXDU68 T301 SYSTEM APPEARANCE
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ZXDU68 T301 User Manual
System ConfigurationThe system configuration is described in Table 3.
TABLE 3 ZXDU68 T301 SYSTEM CONFIGURATION
Component Maximum Configuration
AC input There are two AC input modes
� Single air switch mode: One input airswitch (3 phases)
� Double air switch mode: Two inputair switches (3 phases).
ACDistribution
AC auxiliaryoutput
Optional: Each phase current should beless than or equal to 16 A.
� Up to 10 load branches are available:6 LLVD1 load branches (4 branchesfor the fuses and 2 for the airswitches) and 4 LLVD2 load branches.
� Extended DC output: 7 LLVD1/LLVD2extended air switch branches ( withat most 150 A total current) or 4 fusebranches (with at most 100 A perbranch).
DC output
The number of LLVD1 and LLVD2 loadbranches can be flexibly configuredaccording to the user’s requirement.
DC input Two battery input branches with 250A fuses. And the system can connectexternal batteies with the capacity of nomore than 1000Ah.
DCDistribution
Emergencylight
Optional configuration
Rectifier Up to 6 sets of ZXD2400 rectifiers
Monitoring Unit 1 set
Lightning Arrester � Level C lightning arrester (Thelightning arrester should be installedbefore introducing the AC powersupply to the power equipment.)
� DC surge arrester
Background MonitoringSoftware
The background monitoring softwareserves to realize the backgroundmonitoring of the power supply system.The system can be connected to thecomputer where the monitoring softwareis installed by means of RS232/RS485interface or other networking modes.
Cabinet Height: 1600 mm (Optional: Add a 400mm height top cap).
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Chapter 2 Overview
FeaturesZXDU68 T301 system has the following features.
� ZXD2400 (V4.3) rectifier module:
� Input power factor higher than 0.99.
� Rated efficiency higher than 92%.
� Power density up to 854 mW/cm3.
� Power loss during standby mode less than 4 W.
� Electromagnetic compatibility Complying with IEN61000,YD/T983 and standards. Conductive disturbance and ra-dioactive disturbance complying with EN55022A require-ments.
� Complies with GB4943-2001 safety standard requirements.
� AC input under/over-voltage protection, PFC output un-der/over-voltage protection, DC output over-voltage/cur-rent protection and over temperature protection.
� Drawer-like structure, convenient for transportation, instal-lation and maintenance.
� The rectifiers are hot-pluggable. In case any rectifier fails,the faulty rectifier automatically stops working.
� Power management features:
� The system operates from three-phase AC power sourcewith a wide input voltage ranging from 80 VAC to 300 VAC,suitable for areas with poor power supply quality.
� Automatic and reliable charging and discharging controlfunction, extending the battery life span.
� LLVD functions (can be configured manually or automati-cally). These functions can be configured according to theuser requirement.
� The system is provided with class C lightning protection, DClightning protection and other lightning protection types,enssuring high reliability of the whole system.
� AC auxiliary output function (optional).
� System features:
� Meets the modern communication technology trend re-quirements.
� The system adopts modular design and automatic currentequalization technology, which make it capable of N+1backup and easy expansion.
� PC based background monitoring and management func-tions: remote measurement, remote information, remotecontrol.
� The system has a flexible configuration. Rectifiers can beadded/removed while the system is operating.
� High reliability with MTBF greater than or equal to 5 x 106h (N+1 backups; MTTR < 2 h).
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ZXDU68 T301 User Manual
� Compact structure. Various units, including AC/DC powerdistribution unit, rectifiers and the monitoring unit, are builtin one chassis.
� Intelligent monitoring unit, performing foreground monitoringand the following management functions:
� Querying real-time operation information.
� Querying history operation information.
� Querying battery discharge record and peak record.
� Setting system parameters.
� Setting battery parameters.
� Setting communication parameters.
� Setting output relay parameters.
� Setting alarm threshold.
� Setting login password.
� Controlling the rectifier on/off operation.
� Managing storage battery operation status.
FunctionsAlarm manage-ment function
The monitoring unit processes the real-time system data accordingto the parameters set by users. When a critical fault occurs, itgenerates an alarm and reports it to background PC automatically.The fault information is then recorded and stored locally. Users canaccess to alarms information through the monitoring unit directly.The details are shown in the table below:
Item Description
Alarm setting A user can set the upper and lower limits of the system parametersaccording to the real application requirements.
Alarm management The system has reliable and real-time alarm management function.
Alarm mode In case of any alarm, the monitoring unit generates audible andvisual signal to inform the maintenance personnel and reports thealarm information to a background PC through its communicationinterface. Press any key to mute the alarm sound; then the ALMindicator keeps glowing until the fault is eliminated.
Batterymanagement
function
The monitoring unit manages storage battery charging in threemodes: periodic equalized charging mode, equalized chargingmode (after power failure) and floating charging mode.
When the mains supply is cut off, the battery supplies the powerfor load. When the battery is discharged to a certain voltage (usercan set this threshold through the monitoring unit), an alarm willbe generated.
Control Functions The system is provided with manual /automatic Load Low VoltageDisconnect (LLVD) functions. Users can configure the loads ac-
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Chapter 2 Overview
cording to the real application requirement. Control the power-on,power-off, the equalized charging and the float charging of the rec-tifier through the control instruction of the foreground man-ma-chine interaction operation or through the background computer.Adjust the output voltage of the rectifier (-42 V to -58 V, adjustablecontinuously) according to the user requirements.
Three-RemoteFunctions
� Remote information.
� Remote control.
� Remote measurement.
Man-machineinteractionFunctions
The LCD and keys constitute the man-machine interaction, whichenables the user to set the system operating parameters and querythe related information. The operation is convenient and reliable.
CommunicationFunctions
RS232/RS485 communication interfaces are provided. Centralizedmonitoring can be realized through other modes.
Technical SpecificationsEnvironment
Item Specification
Operating temperature –5°C to +45°C ( +15°C to +25°C recom-mended)
Storage temperature –40°C to +70°C
Relative humidity 10% to 90% without condensation (40%to 60% recommended)
Air pressure 70 KPa to 106 KPa
No conductive dusts or corrosive gases
No explosion hazard, no shake or jolt
Other requirements
The floor slope angle is less than or equalto than 5°
AC PowerDistribution
Item Specification
Input mode Three-phase five-wire (L1, L2, L3, N, PE)
Rated input voltage 220 VAC (phase voltage)
Input voltage range 80 VAC to 300 VAC (phase voltage)
Frequency 45 Hz to 65 Hz
Rated input current 63 A
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ZXDU68 T301 User Manual
Item Specification
Input power factor ≥ 0.99 (with 100% load)
Level C lightning dischargecurrent
≤ 40 kA
DC PowerDistribution
Item Specification
Rated output voltage -48 VDC
Output voltage range -42 VDC to -58 VDC, adjustable
Output current 0 to 300 A
Regulated voltageprecision ≤ 0.6%
Weighted noise volt-age < 2 mV
Peak-peak noise volt-age ≤ 200 mV (20 MHz bandwidth)
Efficiency ≥ 91% (rated input; full load)
Broad frequency noisevoltage
≤ 50 mV (3.4 kHz -150 kHz)
≤ 20 mV (0.15 MHz -30 MHz)
≤ 5 mV (3.4 kHz -150 kHz)
≤ 3 mV (150 kHz -200 kHz)
Discrete frequencynoise voltage
≤ 2 mV (200 kHz -500 kHz)
≤ 1 mV (0.5 MHz - 30MHz)
DC lightning dischargecurrent
≤ 5 kA
AC Input Alarmand Protection
Item Specification
AC Vol. Max. Default: (286±5) VAC, which can bemodified through the monitoring unit.
Threshold of recoveryfrom AC over-voltagealarm
Default: (276±5) VAC, which should be10 V lower than AC Vol. Max.
AC Vol.Min. Default: (154±5) V VAC, which can bemodified through the monitoring unit.
Threshold of recoveryfrom AC under-voltagealarm
Default: (164±5) VAC, which should be10 V higher than AC Vol.Min.
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Chapter 2 Overview
DC Output Alarmand Protection
Item Specification
DC Vol.Max. Default: (58 ±0.2) VDC, which can bemodified through the monitoring unit.
Threshold of recoveryfrom DC over-voltagealarm
Default: (57.5±0.2) VDC, which shouldbe 0.5 V lower than DC Vol.Max.
DC Vol.Min. Default: (48.0 ±0.2) VDC, which can bemodified through the monitoring unit.
Threshold of recoveryfrom DC under-voltagealarm
Default: (48.5±0.2) VDC, which shouldbe 0.5 V higher than DC Vol.Min.
1-Shut Vol. Default: (46.0±0.2) VDC, which can bemodified through the monitoring unit.
2-Shut Vol. Default: (45.0±0.2) VDC, which can bemodified through the monitoring unit.
BatVol Min. Default: (47.0±0.2) VDC, which can bemodified through the monitoring unit.
ZXD2400(V4.3)Rectifier
Item Specification
Rated output voltage: 48 VDC.
Output voltageOutput voltage range: 42 VDC to 58 VDC,adjustable.
Current equalizing per-formance
The difference between the maximum cur-rent and the minimum current should beless than 2.5 A (with over 10% of ratedload).
Maximum output power 3190 W
The DC-DC circuit and the PFC circuit stopworking when the AC input voltage isgreater or equal to 300 VAC ,
Imax = (53 ± 1) A and the rectifier outputpower percentage is 100% when the ACinput voltage ranges from 176 VAC and300 VAC.
Imax = (31 ± 2) A and the rectifier outputpower percentage is 60% when the AC in-put voltage is between 100 VAC and 176VAC.
Imax = (20 ± 2) A and the rectifier out-put power percentage is 40% when the ACinput voltage is between 80 VAC and 110VAC
AC input over-/under-volt-age protection and derat-ing control
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ZXDU68 T301 User Manual
Item Specification
The DC-DC circuit and the PFC circuit stopworking when the AC input voltage is lessthan or equal to 80 VAC.
The AC input over-/under-voltage protec-tion and derating control are performedby the hardware. The voltage precision is±10 VAC and the hysteresis width is (15 ±10) VAC.
The DC-DC circuit and the PFC circuit stopworking when the output voltage of thePFC circuit is greater than 440 VDC
The DC-DC circuit stops working when theoutput voltage is lower than 340 VDCOutput over-/under-
TTvoltage protection of thePFC circuit
The Output over-/under-voltage protec-tion of the PFC circuit is performed by thehardware. The voltage precision is ±10VDC and the hysteresis width is (15 ± 10)VDC.
Output over-voltage pro-tection
The output over-voltage protectionthreshold is set to (61 ± 1) VDC and it isnot adjustable. If the output voltage isgreater than this value, the rectifier stopsworking. In this case, turn off the AC inputpower, troubleshoot it and then restart it.
Output over-current pro-tection
To prevent the over-current protectionfrom being prior to the current limitingprotection, the response of the over-cur-rent protection should be slower than thecurrent limiting protection; in addition, theover-current protection threshold shouldbe greater than the maximum currentlimiting threshold. The over-current pro-tection threshold of the rectifier is (60 ±2) A.
Over-heat protection andtemperature control
Normally, the fan rotates at half speed orat full speed according to the temperatureof the heat sink.� If the temperature is less than 50°C,
the fan rotates at half speed.� If the temperature is greater than
50°C, the fan rotates at full speed.To protect the rectifier from damage, thenegative temperature coefficient thermis-tor of the equipment controls the highesttemperature when the fan is faulty or thefan rotates at full speed but the tempera-ture of the heat sink still rises. The detailsare as follows:� If the temperature is over the
threshold, the DC-DC circuitstops working.
� When the temperature is belowthe threshold, the DC-DC circuitstarts working.
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Chapter 2 Overview
Monitoring Unit
Item Specification
Local monitoring
The monitoring unit of the ZXDU68 T301system has LCD and keys on the frontpanel. The user can set and query thesystem parameters through the monitor-ing unit.
Background monitoring
The system can be connected to a PCthrough the RS232/RS485 interface, IPcard, etc. The monitoring of the systemis performed through the monitoring soft-ware installed in a PC.
Precision of AC voltage ±1%
Precision of the batterycurrent and the outputcurrent of the system
±1%
Precision of the batteryvoltage and the outputvoltage of the system
±0.5%
Temperature precision ± 3°C
Humidity precision ± 5%
ZXDU68T301System
Dimensions andWeight
Item Specification
Dimensions: 1600 mm × 600 mm × 400mm (Height × Width × Depth).
ZXDU68 T301 main cabi-net Weight: 78 kg (excluding rectifiers and the
monitoring unit).
Dimensions: 400 mm × 598 mm × 400mm (Height × Width × Depth).Top cap
Weight: 9.5 kg
Dimensions: 134 mm × 87 mm × 318 mm(Height × Width × Depth).
ZXD2400(V4.3) rectifier
Weight: 3.8 kg
Dimensions: 134 mm × 87 mm × 310 mm(Height × Width × Depth).Monitoring unit
Weight: 2.2 kg.
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Others
Item Specification
Noise ≤ 55 dB (A).
MTBF ≥ 5x106 h.(N+1 backups, MTTR < 2 h).
Safety Complies with IEC60950 and GB4943-2001 requirements.
EMC Complies with IEC61000.
Conductive disturbanceand radioactivedisturbance
Complies with EN55022 level A.
Earthquake resistance Complies with YD 5083-2005 and YD5096-2005 requirements.
Compliant StandardsEMC Standards In compliance with the following electromagnetic compatibility
standards:
� EN55022 Level A
� IEC61000-3-3
� IEC61000-3-2
� IEC61000-4-2
� IEC61000-4-3
� IEC61000-4-4
� IEC61000-4-6
� IEC61000-4-8
� IEC61000-4-11
PerformanceStandards
In compliance with the following performance standards:
� YD/T 1058-2007
� YD/T 1051-2000
Safety Standards In compliance with the following safety standards:
� UL/IEC/EN 60950-2005
� GB4943-2001 standard
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C h a p t e r 3
System Structure andComponents
Table of ContentsSystem Structure ..............................................................15AC Distribution Unit Structure .............................................19DC Distribution Unit Structure .............................................22DC Surge Arrester .............................................................25Rectifier ...........................................................................26Monitoring Unit .................................................................29
System StructureCabinet Dimensions and Weight
The cabinet has 1.6 m height (An optional top cap with 0.4 min height can be added). Figure 2 shows the dimensions of theZXDU68 T301 cabinet.
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ZXDU68 T301 User Manual
FIGURE 2 ZXDU68 T301 CABINET APPEARANCE
The top cap of the ZXDU68 T301 system is shown in Figure 3.
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Chapter 3 System Structure and Components
FIGURE 3 TOP CAP APPEARANCE
The dimensions and Weight of the ZXDU68 T301 system are shownin Table 14.
TABLE 14 ZXDU68 T301 SYSTEM DIMENSIONS AND WEIGHT
System Dimensions (Height × Width ×Depth)
Weight
ZXDU68 T301cabinet 1600 mm × 600 mm × 400 mm 78 kg (excluding therectifiers and themonitoring unit)
Top cap 400 mm × 598 mm × 400 mm 9.5 kg
Equipment Structure Description
ZXDU68 T301 system consists of AC distribution unit, rectifiers,monitoring unit and DC distribution unit.
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ZXDU68 T301 User Manual
Note:
There are four adjustable and removable feet at the bottom of thecabinet.
Before delivery, the DC distribution unit and the AC distributionunit are interchangeable upon user requirement.
The cabinet structure is shown in Figure 4.
FIGURE 4 CABINET STRUCTURE
1. Top cap2. Power indicator3. Alarm indicator4. Cabinet a foot (adjustable)5. DC distribution unit6. Monitoring unit connecting boards
box
7. Rectifiers8. AC distribution unit9. DC surge arrester10. LLVD control device11. Monitoring unit12. Fuse extractor holder
Power and Alarm indicators on the cabinet front panel are de-scribed in Table 15.
TABLE 15 FRONT PANEL INDICATORS DESCRIPTION
Indicator Color State Description
lit The system is turned onPower Green
off The system is turned off
lit An alarm occurs in the systemAlarm Red
off No alarm occurrence
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Chapter 3 System Structure and Components
Installation Slots Configuration
The number of rectifiers for each of the three phases L1, L2 andL3 should be basically identical in order to maintain phase balanceand favor a good radiation.
The distribution of the slots and phases of the rectifiers is shownin Figure 5.
FIGURE 5 INSTALLATION SLOTS CONFIGURATION
AC Distribution UnitStructureThe location of AC distribution unit is located on the lower part ofthe system cabinet.
The module structure is based on the user requirement.
� AC input mode 1– Single air switch (standard configuration) :The AC input has no auxiliary output and the input switch isconfigured with a single 3 phase air switch.
� AC input mode 2– Single air switch (optional configuration) :The AC input has an auxiliary output and the input switch isconfigured with a single 3 phase air switch.
Note:
In the aforementioned two modes, the AC distribution unitstructure is as shown in Figure 6.
� AC input mode- Double air switch (optional configuration) : Inthis case, the AC input can have an auxiliary output and the
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ZXDU68 T301 User Manual
input switch is configured with two 3 phase air switches. TheAC distribution unit structure is as shown in Figure 7.
FIGURE 6 AC DISTRIBUTION UNIT STRUCTURE (SINGLE AIR SWITCH)
1. Rectifiers air switches2. AC lightning arrester (AC SPD)3. AC Transducer
4. Protection ground busbar (PE)5. Neutral cable terminal (N)6. AC input single air switch
FIGURE 7 AC DISTRIBUTION UNIT STRUCTURE (DOUBLE AIR SWITCH)
1. Rectifiers air switches2. AC lightning arrester (AC SPD)3. AC Transducer4. Protection ground busbar (PE)5. Neutral cable terminal (N)6. AC input double air switch7. AC auxiliary output air switch
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Chapter 3 System Structure and Components
Note:
For AC input double air switch, only one of the air switches shouldbe turned on /off at a time.
The components of the AC distribution unit are described in Table16.
TABLE 16 AC DISTRIBUTION UNIT COMPONENTS DESCRIPTION
S/N Component Description
1 Rectifiers air switches Control the on/off operation ofrectifiers. Each air switch controlsone rectifier.
2 AC lightning arrester Provides the system with alightning protection function. Whenthe lightning arrester is damaged,the small window at its bottomturns red. There is no need to turnoff the system when replacing theAC lightning arrester.
3 AC Transducer Provides a controlled output that isproportional to the average beingdrawn from a power source andits transmission to the monitoringunit.
4 Protection ground busbar(PE)
System protection ground busbar:Should be connected to thegrounding busbar of the equipmentroom.
5 Neutral cable terminal (N) AC input neutral cable terminal:Used to connect the ACinput/output neutral
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ZXDU68 T301 User Manual
S/N Component Description
AC input single air switch In standard configuration, theZXDU68 T301 system uses a singleAC input air switch to connect thesystem to a three phase AC inputpower supply branch.
6
AC input double air switch The AC input mode-double airswitch is optional. In this modethe system is connected to twobranches of three phase AC powersupply (mains 1 branch + dieselgenerator branch / two mains)
7 AC auxiliary output airswitch
Controls the on/off operation of ACauxiliary output shunts.
DC Distribution UnitStructureThe DC distribution unit is located on the upper side of the systemcabinet.
The structure of the DC distribution unit is shown in Figure 8.
FIGURE 8 DC DISTRIBUTION UNIT STRUCTURE
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Chapter 3 System Structure and Components
1. Working ground busbar (+48 V)2. LLVD1 load air switches and fuses3. LLVD2 load air switches4. LLVD control device5. DC surge arrester6. Battery fuses
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ZXDU68 T301 User Manual
The components of the DC distribution unit are described in Table17.
TABLE 17 DC DISTRIBUTION UNIT COMPONENTS DESCRIPTION
S/N Component Description
1 Working groundbusbar (GND)
Used in connecting the working groundcable (+48 V)
2,3 LLVD1/ LLVD2 airswitches and fuses
� The load fuses and air switchescontrol the on/off operation of thesystem’s DC output branches andalso provide respectively fuses andtrip unit protection function.
� LLVD1 load fuse/air switch controlsthe load output of the LLVD1branch.– An LLVD1 “extended” (LLVD1
EXT) load fuse/air switch, onthe upper side of the cabinet, isused to control the load outputof the LLVD1 EXT branch.
� An LLVD2 load fuse/air switchcontrols the load output of theLLVD2 branch.– An LLVD2 “extended” (LLVD2
EXT) load fuse/air switch, onthe upper side of the cabinet,is used to control the load out-put of the extended LLVD2 EXTbranch.
4 LLVD control device Used to select the LLVD controldevice mode (manual or automaticmode). Refer to LLVD Control DeviceDescription for more details.
5 DC surge arrester ZXDU68 T301 system’s lightning proofbox.
6 Battery fuses BATT ZXDU68 T301 system is configuredwith 2 battery input branches. Eachbattery fuse controls the on/offoperation of one battery pack branch.
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Chapter 3 System Structure and Components
DC Surge ArresterLocation DC Surge Arrester
The location of DC surge arrester is shown in Figure 9.
FIGURE 9 DC SURGE ARRESTER LOCATION
1. DC surge arrester 2. LLVD control device
DC Surge Arrester Indicators
The indicators of the DC surge arrester are shown in Figure 10.
FIGURE 10 DC SURGE ARRESTER INDICATORS
� The DC surge arrester is working normally when all the indica-tors (HL1/HL2/HL3) are glowing.
� The DC arrester is damaged when at least one indicator is off.
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ZXDU68 T301 User Manual
� When the DC arrester is damaged, the DC Arrester Breakalarm message is displayed on the monitoring unit.
Caution:
The damaged DC surge arrester should be immediately replacedto protect the monitoring unit.
RectifierLocation
Please refer to the section Installation Slots Configuration Instal-lation Slots Configuration for more details about the location ofrectifiers.
Components Description
The rectifier components are shown in Figure 11.
FIGURE 11 RECTIFIER COMPONENTS
1. Indicators2. Shutter3. Handle
4. Stop pin5. Fan6. Input/output integrated socket
The different components of the rectifier are described in Table 18.
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TABLE 18 COMPONENTS DESCRIPTION
S/N Component Description
1 Indicators Indicate the working statuses of the rectifier
2 Shutter Air inlet
3 Handle Used to handle the rectifier duringinstallation/uninstallation and transportation
4 Stop pin Used to position the rectifier.
5 Fan Used for heat dissipation. Note that theventilation hole should not be blocked
6 Input/outputintegratedsocket
Used for connection with the telecommunica-tion power supply system
Indicators Description
The four indicators of the ZXD2400 (V4.3) rectifier are shown inFigure 12.
FIGURE 12 RECTIFIER INDICATORS
Note:
� Normally, only the IN and OUT indicators are lit.
� In case of current limit, the CL indicator is lit.
� In case of any alarm, the ALM indicator is lit.
The aforementioned indicators indicate the working state of therectifier. Please, refer to Table 19 for the indicators description.
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ZXDU68 T301 User Manual
TABLE 19 INDICATORS DESCRIPTION
Designation Descrip-tion
Status Indication
IN Input Lit(green)
The AC input is normal
OUT Output Lit(green)
The DC output is normal
CL Currentlimit
Lit(yellow)
Current limit occurs (Therectifier output current hasreached the current limit)
ALM Alarm Lit (red) Some alarm occurs
Input Output Socket
The input/output socket of the ZXD2400 (V4.3) rectifier is shown inFigure 13. It is used for the connection to the telecommunicationpower supply system. The pins of the socket are defined in Table20.
FIGURE 13 INPUT/OUTPUT INTEGRATED SOCKET
TABLE 20 PINS DESCRIPTION
Pin No. Signal Description
1 48 V+ +48 V output
3 48 V- –48 V output
11 REMOTE � High level voltage turns off the rectifier� Low level voltage or high resistance
turns on the rectifier.
12 ALARM � When the rectifier is working normally,the ALARM signal is high resistance.
� When the rectifier is workingabnormally, the ALARM signal is lowresistance.
13 COM Common end for the control signals
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Pin No. Signal Description
14 ON-LINE Rectifier online signal: Directly connectedto the COM signal on the MAIN board
15 PWM An input pulse signal with the amplitude of5 V is required
16 SHARE-BUS Current equalizing bus
17 FOUT Output signal.
The relation between the output frequencyand the output current is:
26 AC input PE Protection ground
27 AC input N Neutral
28 AC input L Line
Monitoring UnitLocation
Please refer to the section Installation Slots Configuration Instal-lation Slots Configuration for more details about the location ofmonitoring unit.
Components Description
The monitoring unit components are described in Figure 14.
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FIGURE 14 MONITORING UNIT COMPONENTS
1. LCD2. Indicators3. Keys
4. Fastening bolt5. Handle6. Input/output interface
Table 21 describes the above-mentioned components.
TABLE 21 MONITORING UNIT COMPONENTS DESCRIPTION
S/N Component Description
1 LCD Displays the system-relatedinformation.
2 Indicators � Refer to Indicators Descriptionfor details about ALM, RUN,COMM, EQU,and PWRindicators.
� The RST button is used to resetthe monitoring unit.
3 Keys Refer to Operation Interface forkeys functions.
4 Fastening bolt Used to fix the monitoring unit inthe cabinet.
5 Handle Used to pull out the monitoringunit.
6 Input/output interface Used in electrical connection andsignals connection.
Indicators Description
The monitoring unit indicators are shown in Figure 15.
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FIGURE 15 MONITORING UNIT INDICATORS
The indicators are described in Table 22.
TABLE 22 MONITORING UNIT INDICATORS DESCRIPTION
Designation Description Indication
PWR Power The monitoring unit is powered whenPWR glows in green, otherwise themonitoring unit is power off.
RUN Run Flashes in green: The unit is runningnormally.
EQU Chargeequalization
Glows in green: The system is inequalized charge mode.
COMM Communica-tion
Flashes in green: The unit iscommunicating with the backgroundPC.
ALM Alarm Glows in red: A fault occurs in thesystem.
Boards Location
The monitoring unit boards are located under the DC distributionunit, as shown in Figure 16.
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Caution:
when removing the boards make sure that they do not touch theabove busbar.
FIGURE 16 BOARDS LOCATION
1. SIB board2. MPB board
3. IP board
S/N Board Description
1 SIB board Signal interface board
2 MPB board(optional)
Modem power board: Can output 12 V powerto the Modem and the IP card.
3 IP board(optional)
Internet protocol board: Used for remotecontrol in IP network, performing serial portdata and IP data packet interconversion.
SIB Interfaces Description
The Signal Interface Board (SIB) provides external communicationinterfaces and monitoring unit signals interfaces. The SIB boardis shown in Figure 17.
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FIGURE 17 SIB BOARD
Note:
The communication ports of the monitoring unit are X19, X20, X21and X22. X22 is optional.
� X19 and X21 are used in RS232 communication mode. X20and X22 (optional) are used in RS485 communication mode.
� Use X21 when using Modem communication mode.
� X19 and X20 should not be used at the same time.
� Use X19 when downloading programs or downloading font inRS232.
Refer to Table 23 for the SIB interfaces description.
TABLE 23 SIB BOARD INTERFACES DESCRIPTION
InterfaceDesignation Pin No. Signal
Definition Signal Description
1 T1 Battery 1 temperaturesignal
X2
Battery 1temperature 2 +12V1 +12 V power supply
1 T2 Battery 2 temperaturesignal
X3
Battery 2temperature 2 +12V1 +12 V power supply
1 T3 Battery 3 temperaturesignal
X4
Battery 3temperature 2 +12V1 +12 V power supply
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InterfaceDesignation Pin No. Signal
Definition Signal Description
1 T4 Battery 4 temperaturesignal
X5
Battery 4temperature 2 +12V1 +12 V power supply
1 TEMP Environment tempera-ture signal
X6
Environmenttemperature 2 +12V1 +12 V power supply
1 VCC_W Flood sensor signal 1
2 +12V1 +12 V power supply
3 AGND Analog ground
X7
Flood alarm
4 WATER_IN Flood sensor signal 2
1 +12V1 +12 V power supplyX8
Smoke alarm 2 SMOKE_IN Smoke sensor signal
1 +12V1 +12 V power supply
2 AGND Analog ground
3 GLASS_IN Glass broken signal
X9
Glass brokenalarm
4 AGND Analog ground
1 +12V1 +12 V power supply
2 AGND Analog groundX10
Intrusion alarm
3 DOOR_IN Intrusion signal
1 DOOR1 Door magnet signalX11
Door magnetalarm 2 AGND Analog ground
1 INRLY1 Input relay 1
2 INRLY2 Input relay 2X12
Input relays 1, 2
3 AGND Analog ground
1 INRLY3 Input relay 3
2 INRLY4 Input relay 4X13
Input relays 3, 4
3 AGND Analog ground
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InterfaceDesignation Pin No. Signal
Definition Signal Description
1 FAULT-NO Monitoring unitfault-NO
2 FAULT-COM Monitoring unit fault-Common end
X14
Monitoring unitfault detect
3 FAULT-NC Monitoring unitfault-NC
1 RO1-NO Relay output 1– NO
2 RO1-COM Relay output 1– Com-mon end
3 RO1-NC Relay output 1– NC
4 RO2-NO Relay output 2– NO
5 RO2-COM Relay output 2– Com-mon end
X15
Output relays 1,2
6 RO2-NC Relay output 2– NC
1 RO3-NO Relay output 3– NO
2 RO3-COM Relay output 3– Com-mon end
3 RO3-NC Relay output 3– NC
4 RO4-NO Relay output 4– NO
5 RO4-COM Relay output 4– Com-mon end
X16
Output relays 3,4
6 RO4-NC Relay output 4– NC
1 RO5-NO Relay output 5– NO
2 RO5-COM Relay output 5– Com-mon end
3 RO5-NC Relay output 5– NC
4 RO6-NO Relay output 6– NO
5 RO6-COM Relay output 6– Com-mon end
X17
Output relays 5,6
6 RO6-NC Relay output 6– NC
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InterfaceDesignation Pin No. Signal
Definition Signal Description
1 RO7-NO Relay output 7– NO
2 RO7-COM Relay output 7– Com-mon end
3 RO7-NC Relay output 7– NC
4 RO8-NO Relay output 8– NO
5 RO8-COM Relay output 8– Com-mon end
X18
Output relays 7,8
6 RO8-NC Relay output 8– NC
1 - Not used
2 RXD_1 Receive Data
3 TXD_1 Transmit Data
4 - Not used
5 GND_1 Ground
6 - Not used
7 - Not used
8 - Not used
9 - Not used
10 GNDP Protection ground
X19
Serial port1 (RS232interface)
11 GNDP Protection ground
1 485A1 RS485 signal AX20
Serial port1 (RS485interface)
2 485B1 RS485 signal B
1 DCD Data Carrier Detect
2 RXD_2 Receive Data
3 TXD_2 Transmit Data
4 DTR Data Terminal Ready
5 GND_2 Ground
6 DSR Data Set Ready
7 RTS Request To Send
8 CTS Request To Clear
X21
Serial port3 (RS232interface)
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InterfaceDesignation Pin No. Signal
Definition Signal Description
10 GNDP Protection ground
11 GNDP Protection ground
1 485A0 RS485 signal AX22
Serial port2 (RS485interface)
2 485B0 RS485 signal B
1 VCC Digital power supply
2 HUM_IN Humidity signalX23
Environmenthumidity
3 GND Digital ground
1 48V+ +48V input power
2 - Not usedX24
48V power input
3 48V- –48V input power
MPB Interfaces Description
The MPB ( Modem Power Board) board is as shown in Figure 18.
FIGURE 18 MPB BOARD
Refer to Table 24 for the MPB board interfaces description.
TABLE 24 MPB BOARD INTERFACES DESCRIPTION
Interfacedesignation Pin No.
Signaldefinition
Signaldescription
1 48V+ +48V inputterminal
X1
2 48V- –48V inputterminal
X2
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Interfacedesignation Pin No.
Signaldefinition
Signaldescription
1 GND Ground signal
2 +12V +12V outputterminal
IP Board Interfaces Description
The IP board interface is used for remote monitoring purpose inIP networks. It is provided with RS232 interface and a standardnetwork interface.
Note:
The IP board is an optional component that is installed accordingto the user requirement.
The IP board interfaces are shown in Figure 19.
FIGURE 19 IP BOARD INTERFACES
Please refer to Table 25 for the IP board interfaces description.
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TABLE 25 INTERFACES DESCRIPTION
Interface PinNo
SignalDefinition Interface Description
1 GNDX1
2 +12V
Power socket with 12 VDCinput voltage
X2 _ _ Standard JATG interface,used for downloadingapplications.
X3 _ _ Standard networkinterface.
1 RS485_BX4
2 RS485_A
� In RS485communicationmode, x4 and theRS485 interface ofthe SIB board areinterconnected
� Uses 2 standardRS485 interfacesignals (RS485_Aand RS485_B).
2 RS232_RXD
3 RS232_TXD
X6
5 RS232_GND
� Standard DB9 signalof the RS 232interface.
� In RS232communicationmode, X6 and theRS232 interface ofthe SIB board areinterconnected. TheRS 232 interface andS2[4] DIP switch areinterconnected.
IP board DIP (dual in-line package) switches are described in Table26.
TABLE 26 IP BOARD-DIP SWITCHES DESCRIPTION
DIP Switch Description
S1 Jumper for reset (RST) signal.
use the S1[1] switch when downloading programs,as described below:
� OFFWhen burning programs onto the MCU chip.� ONAfter finishing burning in programs.
The S1[1] should be turned off before downloadingprograms. Turn it on after the burning process issuccessful.
S2 1. S2[1,2,3] is used to set the baud rate forcommunication between the IP board and themonitoring unit, as shown in Table 27.
2. The S2[4] switch is used to set thecommunication mode between the IP board andthe monitoring unit: RS485 or RS232.
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DIP Switch Description
– ON RS485 communication mode.
– OFF RS232 communication mode.
S3 Used to set working mode of the RS232 port, asshown in Table 28.
TABLE 27 IP BOARD-DIP SWITCH BAUD RATE
S2[1] S2[2] S2[3] Baud rate
OFF ON OFF 9600 bps
ON ON OFF 4800 bps
OFF OFF ON 2400 bps
ON OFF ON 1200 bps
� The baud rate of two communication terminals should beconsistent, otherwise the communication will fail.
� The maximum baud rate supported by the monitoring unit is 9600bps.
TABLE 28 RS232 PORT-DIP SWITCH CONFIGURATION
DIP Switch Configuration
S3[1] S3[2] S3[3] S3[4]
Description
ON ON OFF OFF When theRS232 interfaceand the SIBboard areinterconnected,used in IPboard in normalcommunicationworking mode,making thecommunicationbetween the IPboard and theSIB board morereliable.
OFF OFF ON ON Used in IP boardparameterssetting whenthe RS232interface anda PC areinterconnected.
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C h a p t e r 4
System Operations
Table of ContentsCircuit Breakers, Fuses and Switches Location .......................41System Startup .................................................................42System Shutdown .............................................................42LLVD Control Device Description ..........................................42
Circuit Breakers, Fuses andSwitches LocationFigure 20 shows the location of fuses and air switches in theZXDU68 T301 system.
FIGURE 20 LOCATION OF FUSES AND AIR SWITCHES
1. Battery fuses2. LLVD1/LLVD2 air switches and
fuses3. AC input air switches (Single air
switch and Double air switch)4. Rectifier air switches
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ZXDU68 T301 User Manual
System StartupPrerequisites Extract all the load fuses (or turn off the load air switches) and all
the battery fuses (or turn off the battery air switches) to start thesystem without load.
Context Please, refer to Circuit Breakers, Fuses and Switches Location forthe location of the circuit breakers and fuses.
Steps 1. Turn on the AC protection air switch outside the system.
2. Turn on AC input air switch.
Turn on one of the AC input air switches when the system isconfigured with the double AC input air switch.
3. Turn on the rectifier air switches.
� The rectifiers are powered on.
� The indicators of the monitoring unit start flashing.
� The monitoring unit starts self-test, which lasts for about10 seconds.
� The monitoring unit starts operating normally.
4. Insert the battery fuses in the fuse holders , and turn on theexternal storage battery air switches (if any).
END OF STEPS
System ShutdownContext Perform the following procedure to shutdown the ZXDU68 T301
system:
Steps 1. Remove the DC output and battery fuses (or turn off the airswitches).
2. Turn off the rectifiers air switches. Then the monitoring unit isautomatically shut down.
3. Turn off the AC input air switches.
4. Turn off the system external AC switch.
END OF STEPS
LLVD Control DeviceDescriptionThe LLVD control device is used for load and batteries LLVD controlprotection.
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Chapter 4 System Operations
LLVD ControlDevice
Introduction
LLVD control device is divided into LLVD1 and LLVD2 switches, asshown in Figure 21.
� The LLVD1 switches are used for LLVD1 control.
� The LLVD2 switches are used for LLVD2 control.
Warning:
LLVD control device configuration mode might affect the LLVD con-trol of the system load and storage batteries.
FIGURE 21 LLVD CONTROL DEVICE
1. LLVD1 switch 12. LLVD1 switch 2
3. LLVD2 switch 14. LLVD2 switch 2
Please refer to Table 29 for more details.
TABLE 29 SWITCHES FUNCTIONS
Switch State Function
Auto Automatic LLVD1 control protection.
OFF Turn off the LLVD1 loads
LLVD1
Manual
ON Turn on the LLVD1 loads
Auto Automatic LLVD2 control protection.
OFF Turn off the LLVD2 loads
LLVD2
Manual
ON Turn on the LLVD2 loads
Manual LLVDControl
LLVD1 and LLDV2 manual control modes are the same. This sec-tion focuses on how to manually turn off LLVD1 loads.
1. Set the LLVD1 switch 1 as Manual.2. Turn OFF the LLVD1 switch 2.
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Warning:
� Make sure that the corresponding switches are in ON state,when LLVD1/LLVD2 control switch is set as Auto
� After performing maintenance operations on the equipment ,set the LLVD1 and LLVD2 control switches as Auto, otherwisethe LLVD function will be disabled.
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C h a p t e r 5
Monitoring UnitOperation Instructions
Table of ContentsOperation Interface............................................................45Menu Hierarchy .................................................................46Main Menu........................................................................47Operation Authority ...........................................................48Querying Information.........................................................49Entering Ctrl Main Menu .....................................................62Modifying Parameter Value..................................................64System Parameters............................................................66Battery Parameters............................................................73Work Mode .......................................................................88Save Management .............................................................93Output Relay Control........................................................ 100Adjustment Parameters .................................................... 105Alarm Parameters............................................................ 109Operation and Maintenance Management............................ 116Delete Records................................................................ 123Load Run Para................................................................. 125Load All Para................................................................... 126Downloading Program ...................................................... 127Download Font ................................................................ 128Other Instructions ........................................................... 129
Operation InterfaceThe front panel of the monitoring unit is shown in Figure 22.
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FIGURE 22 FRONT PANEL OF THE MONITORING UNIT
1. LCD 2. Keys
The components of the monitoring unit front panel are describedin Table 30.
TABLE 30 KEYS OF THE MONITORING UNIT
Category Key Function
To turn pages upwards
To turn pages downwards
To move the cursor to the right
To move the cursor to the left
Esc To exit and return to the upper-level in-terface
Single Key
EntTo confirm the current menu item / savethe current parameter setting / enter thelower-level interface.
< + > To access the shortcut menu
< + Ent> To display help informationKey Combi-nation
< + Ent> To display the Trace Message
Menu HierarchyThere are four main menus. Each contains multiple submenus.Through the menu hierarchy, users can easily find the submenuthey want.
The menu hierarchy is shown in Figure 23.
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FIGURE 23 MENU HIERARCHY
Main MenuTo enter the main menu:
1. Start the monitoring unit, then the unit starts self-test andinitialization.
2. After initialization, the LCD displays the main menu, as shownin Figure 24.
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Note:
In the screen saver interface, press Esc or Ent. You can alsoenter the main menu interface.
FIGURE 24 MAIN MENU INTERFACE
TABLE 31 DESCRIPTION OF THE MAIN MENU
Item Description Function
Msg To query the real-time runningdata of the system.
Alm To query the real-time alarminformation.
Ctrl
It includes the following func-tions. Functions 3 to 8 areonly open to administrators.1. Setup Para2. OAM3. Relay Ctrl4. Delete Records5. Load Run Para6. Load All Para7. Download App8. Download Font
Rec
To query the following historyrecords:1. Alm Rec.2. Operate Rec.3. Discharge Rec.4. Peak Rec.5. Maintain Rec.
Operation AuthorityShort Description The software of the monitoring unit has hidden menus and hidden
parameters. Basically, common users and the system administra-tor have different operation authorities. Users are identified bytheir login password. The hidden menus and parameters can onlybe displayed when the user is identified as the administrator.
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� Common users have only the right to operate the basic menu.Therefore, common users can only set the basic parameters.The initial password for common users is “0000”.
� The system administrator has the right to operate both basicmenu and hidden menu. Therefore, the system administratorcan set basic parameters and hidden parameters.
� The hidden menus and parameters are used for trained pro-fessionals only for system maintenance.
Querying InformationQuerying Real-Time OperationInformation
Context ThroughMsg, users can query the real-time operation informationof the system to learn about the running status.
The relationship between Msg and its submenus are shown in Fig-ure 25.
FIGURE 25 RELATIONSHIP BETWEEN MSG AND SUBMENUS
The operation flow of querying real-time operation information isshown in Figure 26.
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FIGURE 26 FLOW OF QUERYING REAL-TIME INFORMATION
Meanings of the headers:
� Msg 2/9: Indicates that there are a total of nine messagesand the second one is displayed currently.
� Battery 1/4: Indicates that there are a total of four messagepages and the first one is displayed currently.
Steps 1. Press Ent or Esc in the screen saver interface to enter the mainmenu interface.
2. Press Ent, and then the DC Out interface is displayed.
3. Press or to go to the previous or next interface.
The signs or on the interface upper right corner mean thatthere is a lower level menu. Take the Battery interface as theexample.
4. Press Ent to enter the lower-level interface, which displays theNo.1 Battery voltage and current.
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5. Press Esc to return to the upper-level interface.
END OF STEPS
Result Through the operations above, users can query the real-time op-eration information described in Table 32.
TABLE 32 DESCRIPTION OF REAL-TIME INFORMATION INTERFACES
S/N Interface and Description Lower-level Interface andDescription
1
The sign at the upper right cornerindicates the power supply mode.
� : Active AC power supply;
� : Standby AC power supply;
� : Battery power supply.� Volt 55.8 V: The current DC output
voltage is 55.8V.� Curr 16 A: The present DC output
current is 16 A.
-
2Volt 55.7 V: The first valid batteryvoltage.
Curr 2.1 A: Total battery current (Sumof each battery current).
�: Indicates that this interface hasa lower-level interface that can beviewed by pressing Ent.
No.1 Battery: The first battery.
55.7 V: Voltage of this battery.
0.6 A: Current of this battery. Currentis positive in battery charge; while it isnegative in battery discharge.
25℃: Temperature of this battery.Void means that battery temperaturetest is void, no battery temperaturesensor is connected, or the battery isvoid.
Equal Mng: Work status of this battery.It can be Equal Mng, Float Mng, TestMng, or Disch.Mng.
� Float Mng: The battery in the floatcharge status.
� Equal Mng: The battery is in theEqual Mng status.
� Test Mng: The battery is in thetest discharge status (mains isnormal).
� Disch.Mng: The battery is inthe discharge status (mains isinterrupted).
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S/N Interface and Description Lower-level Interface andDescription
3PhaseA 230 V 16 A: The input voltageand current of Phase A is 230 V and 16A.
PhaseB 229 V: The input voltage ofPhase B is 229 V.
PhaseC 230 V: The input voltage ofPhase C is 230 V.
-
4
1–8: Work status of No.1 to No.8rectifiers.
9–16: Work status of No.9 to No.16rectifiers.
Work status of rectifiers:
� : An SMR is not in position.� : An SMR is in position, but faulty.� : An SMR is in position, but shut
down through the software of themonitoring unit.
� : An SMR is in position andworking normally with power on.
� : SMR is in position but the outputis abnormal.
SMR 1/8: There are a total of eightpages and the first page is displayedcurrently.
No.1 1.2A: Work status of No.1rectifier is in position and workingnormally. The output current is 1.2 A.
No.2 0A: Work status of No.2 rectifieris faulty and the output current is 0 A.
5Safe Mode: The system works in SafeMode currently.
There are three work modes: SafeMode, Save Mode, and Free Mode. InSave Mode, the system can work inAuto Save Mode, Auto NonSave Mode,Temp NonSave Mode, Perm NonSaveMode, or Manual Detect.
-
6Temp 25℃: Environment temperaturedetected is 25℃.Hum 29%: Environment humiditydetected is 29%.
-
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S/N Interface and Description Lower-level Interface andDescription
7The interface displays the real-timestatus of each input relay.
� : A relay is OFF.� : A relay is ON.
-
82009–10–08: Next equalized chargetime, which is related to equalizedcharge period. If the equalized chargefunction is disabled, Next Equal Time isthe current system time.
-
9
ZXDU68 S/T301: System model.
2009-05–01 V1.0: Software version ofthe monitoring unit.
-
Querying Real-Time AlarmInformation
Context To query the real-time alarm information, follow the steps below.
Steps 1. Press Ent or Esc in the screen saver interface to enter the mainmenu interface.
2. Press in the main menu interface to move the cursor to .
3. Press Ent and the interface of the first alarm information isdisplayed.
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4. Press to view the second alarm information.
5. Press to view other alarms information.
6. Press Esc to exit.
END OF STEPS
Result The real-time alarm interface is described in Figure 27.
FIGURE 27 REAL-TIME ALARM INTERFACE DESCRIPTION
Querying History Alarm Information
Context Figure 28 shows how to query history alarm information.
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FIGURE 28 QUERYING HISTORY ALARM RECORDS FLOW
To query history alarm information follow the steps below.
Steps 1. In the Screen Save interface, press Esc or Ent to enter themain menu interface, as shown below .
2. Press to move the cursor to .
3. Press Ent, and then the 1. Alarms Rec. interface is displayed.
4. Press Ent, and then the interface of the latest alarm informa-tion is displayed.
5. Press or to switch to the interface upwards and downwardsand query other alarms, if any.
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END OF STEPS
Result The history alarm interface is described in Figure 29.
FIGURE 29 HISTORY ALARM INTERFACE DESCRIPTION
Querying Operation Log
Context To query history operation log follow the steps below.
Steps 1. Press Ent or Esc in the screen saver interface to enter the mainmenu interface.
2. In the main menu interface, press to move the cursor to
.
3. Press Ent. The 1. Alarms Rec. interface is displayed.
4. Press to enter the 2. Operation Rec. interface.
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5. Press Ent. Then the interface of the latest operation log isdisplayed.
6. Press to view other operation logs interfaces.
Press Esc to return to the upper-level interface.
END OF STEPS
Result The history operation log interface is described in Figure 30.
FIGURE 30 OPERATION LOG INTERFACE DESCRIPTION
Querying Discharge Record
Context To query discharge record information, follow the steps below.
Steps 1. Press Ent or Esc in the screen saver interface to enter the mainmenu interface.
2. Press in the main menu interface to move the cursor to .
3. Press Ent. The 1. Alarms Rec. interface is displayed.
4. Press to enter the 3. Discharge Rec. interface.
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5. Press Ent. The 1. Last Time interface is displayed.
6. Press . The 2. Dis. Cap. interface is displayed.
7. Press . The 3. End Time interface is displayed.
8. Press Esc to return to the upper-level interface.
END OF STEPS
Result The discharge record interfaces are described in Table 33.
TABLE 33 DESCRIPTION OF DISCHARGE RECORD INTERFACE
S/N Interface Description
1 This interface displays the discharge duration of the battery(Unit: Minute).
2 This interface displays the discharged capacity of the battery.(Unit: Ah)
3 This interface displays the end time of the battery discharge.(Format: Year-Month-Day Hour: Minute: Second)
Querying Peak Value Record
Context Follow the steps below to query the peak value record.
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Steps 1. Press Ent or Esc in the screen saver interface to enter the mainmenu interface.
The following interface is automatically displayed when startingthe monitoring unit, after initialization. In that case there is noneed to perform step 1.
2. Press in the main menu interface to move the cursor to .
3. Press Ent, and then the 1. Alarms Rec. interface is displayed.
4. Press to enter the 4. Peak Rec. interface.
5. Press Ent, and then the 1. AC Vol Max (V) interface is dis-played.
6. Press or to turn page upwards or downwards and queryother peak records.
END OF STEPS
Result The peak value record interfaces are described in Table 34 (* rep-resents the total number of records).
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TABLE 34 DESCRIPTION OF PEAK RECORD INTERFACES
S/N Interface Description
1
� Displays the maximum input AC phase voltage (unit:V).
� Displays the time when the maximum voltage occurs(Format: Year-Month-Day Hour:Minute:Second).
2� Displays the maximum DC current (unit: A).� Displays the time when the maximum DC current occurs
(Format: Year-Month-Day Hour:Minute:Second).
3
� Displays the maximum discharging current of thebattery (unit: A).
� Displays the time when the maximum dischargingcurrent occurs (Format: Year-Month-DayHour:Minute:Second).
4
� Displays the maximum temperature of thebattery (unit: ℃).
� Displays the time when maximum temperatureof the battery occurs (Format: Year-Month-DayHour:Minute:Second).
Refer to Figure 31 for the description of the peak records interface.
FIGURE 31 PEAK RECORDS INTERFACE DESCRIPTION
Querying Maintenance Record
Context By querying maintenance records, maintenance personnel canview related information about the latest manual detect, such asend time, battery status, and rectifier status.
The operation flow is shown in Figure 32.
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FIGURE 32 FLOW OF QUERYING MAINTENANCE RECORDS
Steps 1. Select Rec from the main menu, and press Ent.
2. Press � to select 5. Maintain Rec..
3. Press Ent. The following interface appears.
4. Press � or � to view other records.
5. After viewing the records, press Esc to return to the upper-level interface.
END OF STEPS
Result The maintenance records are described in the following table.
Interface Description
End time of the latest maintenance.
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Interface Description
The result of battery check, which can beBattery Normal, Battery Fault, or BatteryNoDetect.� Battery Normal: Indicates that the
batteries can supply power normally.� Battery Fault: Indicates that the
batteries cannot supply power online.� Battery NoDetect: Indicates that there
is no battery detect record.
The result can be All Normal or Fault.� All Normal: Indication that all the
in-position rectifiers work normally.� 1# Fault: Indicates that the rectifier in
Slot 1 is faulty.� If � is displayed in the interface, it
means that multiple rectifiers are faulty.Press � to view other information.
Entering Ctrl Main MenuContext The operation flow of entering Ctrl is shown in Figure 33.
FIGURE 33 FLOW OF ENTERING CTRL
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Note:
� When users enter Ctrl, the system identifies them throughpasswords entered. The menus that different levels of userscan access are different. For example, to access the hiddenmenu 3.Relay Ctrl, the administrator password is required.
� The initial password for normal users is “0000”. The adminis-trator password is open only to maintenance personnel trainedby ZTE. This manual does not provide the initial administratorpassword.
� When “Ctrl 1/2” is displayed in the interface, it means thatthere are a total of two control items and the first one is se-lected currently; when “Ctrl 1/8” is displayed in the interface,it means that there are a total of eight control items and thefirst one is selected currently.
Steps 1. Press Ent or Esc from the screen saver interface to enter fol-lowing the interface.
2. In the main menu interface, press to move the cursor to Ctrl.
3. Press Ent, and then the password interface is displayed. Theinitial password is “0000”, which is modifiable.
4. Input the correct password (for example, 0060): Press orto move the cursor to the right or to the left and press orto modify the values.
5. After modification, press Ent to confirm it.
END OF STEPS
Postrequisite After having entered Ctrl, users can perform the following opera-tions:
� Setup Para
� OAM
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� Relay Ctrl (for administrator only)
� Delete Records (for administrator only)
� Load Run Para (for administrator only)
� Load All Para (for administrator only)
� Download App (for administrator only)
� Download Font (for administrator only)
Modifying Parameter ValueContext Take Bat.2 Cap. and Buzz Switch as the example. The operation
flow is shown in Figure 34.
FIGURE 34 FLOW OF MODIFYING PARAMETER VALUE
Meanings of the headers:
� Ctrl 1/2: Indicates that there are a total of two control itemsand the first one is selected currently.
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� Setup Para 1/3: Indicates that there are a total of threeparameter setup items and the first one is selected currently.
� Sys Para 2/16: Indicates that there are a total of 16 systemparameters and the second one is selected currently.
Note:
The system identifies user levels through the password entered.Hidden menus and parameters can be displayed only after the ad-ministrator password is entered. The interfaces shown in Figure34 are for normal users.
Steps 1. Enter Ctrl, and then select 1. Setup Para.
2. Press Ent, and then select 1. Sys Para
3. Press Ent.
4. Press �to select 2. Bat.2 Cap..
5. Follow the substeps below to change the value of 2.Bat.2 Cap.to 300 Ah.
i. Press Ent to enter the parameter edit interface.
ii. Press� to move the cursor the second digit, and then press� to increase the value to 3.
iii. Press Ent to save the change.
6. Press � to select 11. Buzz Switch.
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7. Follow the substeps below to set 11. Buzz Switch to Off.
i. Press Ent to enter the parameter edit interface.
ii. Press � to switch On to Off.
iii. Press Ent to save the change.
END OF STEPS
Result � 2. Bat.2 Cap. is set to 300 Ah. That is, the capacity of thesecond battery group is configured as 300 Ah.
� 11. Buzz Switch is set to Off.
System ParametersBat Cap(Ah)
Parameter Typeand Interface
Bat Cap(Ah) is a basic parameter. There are four similar parame-ters. Take Bat1 Cap(Ah) as the example, as shown in Figure 35.
FIGURE 35 BAT1 CAP(AH) INTERFACE
ParameterMeaning
� Bat1 Cap(Ah): Rated capacity of No.1 battery group, in Ah.
� Bat2 Cap(Ah): Rated capacity of No.2 battery group, in Ah.
� Bat3 Cap(Ah): Rated capacity of No.3 battery group, in Ah.
� Bat4 Cap(Ah): Rated capacity of No.4 battery group, in Ah.
Value Range 0 Ah to 9990 Ah.
� Bat1 Cap(Ah): The default is 300 Ah.
� Bat2 Cap(Ah): The default is 0 Ah.
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� Bat3 Cap(Ah): The default is 0 Ah.
� Bat4 Cap(Ah): The default is 0 Ah.
SettingRequirements
Set this parameter according to the actual battery capacity to en-sure normal battery management.
Note:
If the system is not configured with batteries, the value must beset to 0 Ah; otherwise the system cannot manage batteries nor-mally.
COM Bauds
Parameter Typeand Interface
COM Bauds is a basic parameter. There are three similar param-eters. Take COM1 Bauds as the example, as shown in Figure 36.
FIGURE 36 COM1 BAUDS INTERFACE
ParameterMeaning
� COM1 Bauds: RS232/RS485 baud rate of COM1.
� COM2 Bauds: RS485 baud rate of COM2.
� COM3 Bauds: RS232 baud rate of COM3.
Value Range 1200 bps/ 2400 bps/4800 bps /9600 bps, 9600 bps by default.
SettingRequirements
Set the TXD baud rate equal to the RXD baud rate; otherwise,communication will fail.
Device No.
Parameter Typeand Interface
Device No. is a basic parameter, as shown in Figure 37.
FIGURE 37 DEVICE NO. INTERFACE
ParameterMeaning
It is used to set a device number.
Value Range 1 to 254, 1 by default.
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SettingRequirements
For the devices monitored by the same background monitoringcomputer, the number of each device should be unique; otherwisea communication error will occur.
Password
Parameter Typeand Interface
Password is a basic parameter, as shown in Figure 38.
FIGURE 38 PASSWORD INTERFACE
ParameterMeaning
It is used to change system password of common users.
Value Range 0000 to 9999, 0000 by default.
SettingRequirements
It is recommended to change the original password and keep thenew one in mind.
Language
Parameter Typeand Interface
Language is a basic parameter, as shown in Figure 39.
FIGURE 39 LANGUAGE INTERFACE
ParameterMeaning
It is used to set the language displayed in the LCD screen.
Value Range Chinese/English, Chinese by default.
SettingRequirements
Users can choose the language as required.
Alarm Sound and Auto Alarm
Buzz Switch
Parameter Typeand Interface
Buzz Switch is a basic parameter. Its interface is shown in Figure40.
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FIGURE 40 BUZZ SWITCH INTERFACE
ParameterMeaning
It is used to enable or disable the buzzer to give a sound in thecase of an alarm.
Value Range On or Off, On by default.
SettingRequirements
Set it to On so that the buzzer can give a sound in the case of analarm.
Auto Alarm
Parameter Typeand Interface
Auto Alarm is a basic parameter. Its interface is shown in Figure41.
FIGURE 41 AUTO ALARM INTERFACE
ParameterMeaning
It is used to enable or disable the monitoring unit to automaticallyreport a major alarm to the background monitoring system.
Value Range Enable/Disable, Enable by default.
SettingRequirements
If the networking mode is not MODEM, set this parameter to En-able so that the monitoring unit can automatically report a majoralarm to the background monitoring system.
AuxSwitch Set
Parameter Typeand Interface
AuxSwitch Set is a basic parameter. Its interface is shown inFigure 42.
FIGURE 42 AUXSWITCH SET INTERFACE
ParameterMeaning
It is used to determine whether an AC auxiliary switch is configuredfor the system.
Value Range Yes/No. The default value is No.
SettingRequirements
Configure this parameter as required. When the system is config-ured with an AC auxiliary switch, this parameter should be config-ured as Yes.
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SMR Pulled Alm
Parameter Typeand Interface
SMR Pulled Alm is a basic parameter. Its interface is shown inFigure 43.
FIGURE 43 SMR PULLED ALM INTERFACE
ParameterMeaning
It is used to determine whether the system gives an alarm oncean SMR is pulled out while the system is running.
Value Range Enable/Disable. The default value is Enable.
SettingRequirements
Configure this parameter as Enable so that the monitoring unitgives an alarm once an SMR is pulled out when the system is run-ning.
Current Date and Time
Current Date
Parameter Typeand Interface
Current Date is a basic parameter. Its interface is shown in Figure44.
FIGURE 44 CURRENT DATE INTERFACE
ParameterMeaning
This parameter is used to set the current date, in the format ofYear-Month-Day.
Value Range 1970-1-1 to 2099-12-31, without a default date. It cannot bereset by means of Reset All Para.
SettingRequirements
Change the value so that the system date is consistent with thelocal date; otherwise the date information recorded in the historyrecords is incorrect.
Current Time
Parameter Typeand Interface
Current Time is a basic parameter. Its interface is shown in Figure45.
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FIGURE 45 CURRENT TIME INTERFACE
ParameterMeaning
This parameter is used to set the current time, in the format ofHour-Minute-Second.
Value Range 00:00:00 to 23:59:59, without a default value. It cannot be resetby means of Reset All Para.
SettingRequirements
Change the value so that the system time is consistent with thelocal time; otherwise the time information recorded in the historyrecords is incorrect.
Fuse ValveVol.
Parameter Typeand Interface
Fuse ValveVol. is a hidden parameter. Its interface is shown inFigure 46.
FIGURE 46 FUSE VALVEVOL. INTERFACE
ParameterMeaning
It is the difference between load voltage and battery voltage, serv-ing as one of the conditions that trigger the fuse broken alarm.
Value Range 0.1 V to 0.8 V. The default is 0.5 V.
Load Branches
Parameter Typeand Interface
Load Branches is a hidden parameter. There are two similar pa-rameters. Take Load1 Branches as the example. Its interface isshown in Figure 47.
FIGURE 47 LOAD1 BRANCHES INTERFACE
ParameterMeaning
� Load1 Branches: Number of branches configured for the firstgroup of loads.
� Load2 Branches: Number of branches configured for the sec-ond group of loads.
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Value Range � Load1 Branches: 7
� Load2 Branches: 8
SettingRequirements
� Load1 Branches: It should be consistent with the actual num-ber of LLVD1 load branches.
� Load2 Branches: It should be consistent with the actual num-ber of LLVD2 load branches.
Battery and Load Shunt
Battery Shunt
Parameter Typeand Interface
Battery Shunt is a hidden parameter. Its interface is shown inFigure 48.
FIGURE 48 BATTERY SHUNT INTERFACE
ParameterMeaning
It is used to select a battery shunt type.
Value Range 120 A/150 A/200 A/300 A/500 A/600 A/750 A. The default valueis 300 A.
SettingRequirements
The value should be consistent with the type of the battery shuntactually configured.
Load Shunt
Parameter Typeand Interface
Load Shunt is a hidden parameter. Its interface is shown in Figure49.
FIGURE 49 LOAD SHUNT INTERFACE
ParameterMeaning
It is used to select a load shunt type.
Value Range 120 A/150 A/200 A/300 A/500 A/600 A/750 A. The default valueis 300 A.
SettingRequirements
The value should be consistent with the type of the load shuntactually configured.
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Battery ParametersFloat and Equalized ChargingVoltage
Float Vol.
Parameter Typeand Interface
Float Vol. is a basic parameter. Its interface is shown in Figure50.
FIGURE 50 FLOAT VOL. INTERFACE
ParameterMeaning
It is used to set the system output voltage in floating charge mode.
Value Range 42.0 V to 58.0 V, 53.5 V by default.
Constraints are as follows:
� Float Vol.≤Equal Vol.
� Float Vol.≥BatVol Min.+1 V
SettingRequirements
Set this parameter according to the battery features.
For example, if the rated floating voltage is 2.23 V/battery, thefloating voltage of 24 batteries is 2.23 V × 24 ≈ 53.5 V. Then FloatVol. should be set to 53.5 V.
Equal Vol.
Parameter Typeand Interface
Equal Vol. is a basic parameter. Its interface is shown in Figure51.
FIGURE 51 EQUAL VOL. INTERFACE
ParameterMeaning
It is used to set the system output voltage in equalizing chargemode.
Value Range 42.0 V to 58.0 V, 56.4 V by default.
Constraints: Equal Vol.≥Float Vol.
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SettingRequirements
Set the value according to the battery features.
For example, if the rated floating voltage is 2.35 V/battery, thefloating voltage of 24 batteries is 2.35 V × 24 ≈ 56.4 V. ThenEqual Vol. should be set to 56.4 V.
Cur. Limited
Parameter Typeand Interface
Cur. Limited is a basic parameter. Its interface is shown in Figure52.
FIGURE 52 CUR. LIMITED INTERFACE
ParameterMeaning
The maximum charging current depends on this parameter: Themaximum charging current is equal to the Cur. Limited multipliedby the battery capacity.
Value Range 0.01 C to 0.40 C, 0.15 C by default.
SettingRequirements
Set the parameter according to the battery charging performance.
For example, suppose the system is configured with one batterypack of 300 Ah and the recommended current limiting is 0.15 C;then this parameter should be set to 0.15. In this case, the max-imum equalization or floating charge current I is:
I=300 Ah×0.15 C=45 A
Equalized Charge and EqualizedPeriod
Equal Func.
Parameter Typeand Interface
Equal Func. is a basic parameter. Its interface is shown in Figure53.
FIGURE 53 EQUAL FUNC. INTERFACE
ParameterMeaning
This parameter is used to enable or disable the equalizing chargefunction.
Value Range Enable/Disable, Enable by default.
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SettingRequirements
If power is stable, users need to perform equalizing charge peri-odically to maintain batteries. In this case, enable this function.When using batteries that do not need equalizing charge, disablethis function.
Equal Period
Parameter Typeand Interface
Equal Period is a basic parameter. Its interface is shown in Figure54.
FIGURE 54 EQUAL PERIOD INTERFACE
ParameterMeaning
When Equal Func. is enabled, set this parameter to configurethe equalizing charge period. When Equal Func. is disabled, thisparameter is invalid.
Value Range 15 to 365 days, 90 days by default.
SettingRequirements
Set this parameter according to the battery features.
Maximum, Minimum, and LastEqualized Charge Hours
Equ.Min Hours
Parameter Typeand Interface
Equ.Min Hours is a hidden parameter. Its interface is shown inFigure 55.
FIGURE 55 EQU.MIN HOURS INTERFACE
ParameterMeaning
It is used to set the minimum charge equalization duration. Onlywhen the duration of equalizing charge reaches the pre-set pa-rameter, can the equalizing charge end.
Value Range 0 H to 48 H, 3 H by default.
Constraints:
� Equ. Min Hours ≤ Equ. Max Hours;
� Equ. Min Hours ≥ Equ. LastHours
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SettingRequirements
Set this parameter according to the battery features.
Equ.Max Hours
Parameter Typeand Interface
Equ.Max Hours is a hidden parameter. Its interface is shown inFigure 56.
FIGURE 56 EQU.MAX HOURS INTERFACE
ParameterMeaning
It is used to set the maximum equalizing charge duration. Whenthe duration of equalizing charge reaches the pre-set value, thesystem will switch to floating charge mode from equalizing chargeto avoid over-charge.
Value Range 0 H to 48 H, 10 H by default.
Constraints: Equ.Max Hours≥Equ.Min Hours
SettingRequirements
Set this parameter according to the battery features.
Equ.LastHours
Parameter Typeand Interface
Equ.LastHours is a hidden parameter. Its interface is shown inFigure 57.
FIGURE 57 EQU.LASTHOURS INTERFACE
ParameterMeaning
Equalizing charge duration. The time that the equalizing chargeshould last at the end of the equalizing charge.
Value Range 0 H to 10 H, 3 H by default.
Constraints: Equ.LastHours≤Equ.Min Hours
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SettingRequirements
Set this parameter according to the battery features.
Equal Cap.Min., Equal Vol.Min., andEq.EndCur.Coef.
Equal Cap.Min.
Parameter Typeand Interface
Equal Cap.Min. is a hidden parameter. Its interface is shown inFigure 58.
FIGURE 58 EQUAL CAP.MIN. INTERFACE
ParameterMeaning
Minimum equalizing capacity. After mains fails, if the ratio of re-maining battery capacity to rated battery capacity is less than thisparameter, the system will recharge the batteries as soon as mainsinput recovers.
For example, suppose the system is configured with one batterypack of 300 Ah and the Equal Cap.Min is set to 0.85. After mainsfails, if the remaining battery capacity is less than 300 Ah × 0.85,that is, 255 Ah, the system starts recharging the batteries.
Value Range 0.5 to 1, 0.85 by default.
SettingRequirements
Set this parameter according to the battery features.
Equal Vol.Min.
Parameter Typeand Interface
Equal Vol.Min. is a hidden parameter. Its interface is shown inFigure 59.
FIGURE 59 EQUAL VOL.MIN. INTERFACE
ParameterMeaning
Minimum equalizing charge voltage. When the mains recoversfrom failure, the system starts equalizing charge if the batteryvoltage is less than this parameter.
Value Range 46 V to 50 V, 48 V by default.
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SettingRequirements
Set this parameter according to the battery features.
Eq.EndCur.Coef.
Parameter Typeand Interface
Eq.EndCur.Coef. is a hidden parameter. Its interface is shown inFigure 60.
FIGURE 60 EQ.ENDCUR.COEF. INTERFACE
ParameterMeaning
Current rate at the end of equalizing charge.
The current at the end of equalizing charge is equal to the Eq.EndCur.Coef multiplied by battery capacity. The battery is at theend of the equalizing charge period when the equalizing chargecurrent is not greater than the current at the end of equalizingcharge.
Value Range 0.001 to 0.05, 0.015 by default.
SettingRequirements
Set this parameter according to the equalizing charge features ofbatteries.
BatVol Min.
Parameter Typeand Interface
BatVol Min. is a basic parameter. Its interface is shown in Figure61.
FIGURE 61 BATVOL MIN. INTERFACE
ParameterMeaning
Threshold of battery under-voltage. When the battery voltage de-creases to the parameter, the monitoring unit generates the bat-tery under-voltage alarm.
Value Range 39 V to 52 V, 47 V by default.
Constraints:
� BatVol Min. ≤ Float Vol. – 1 ;
� BatVol Min. ≥ 1-Shut Vol. + 1
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SettingRequirements
Set this parameter according to battery discharge features.
LLVD 1 and LLVD2 Voltage andControl
1-Shut Vol.
Parameter Typeand Interface
1-Shut Vol. is a basic parameter. Its interface is shown in Figure62.
FIGURE 62 1-SHUT VOL. INTERFACE
ParameterMeaning
Voltage of first low-level voltage disconnect. When the batteryvoltage is lower than the value, the system generates an alarmand shuts down less-important loads.
Value Range 38 V to 49 V, 45 V by default.
Constraints:
� 1-Shut Vol. ≤ Test Vol. – 1 ;
� 1-Shut Vol.≤BatVol Min.-1
� 1-Shut Vol.≥2-Shut Vol.
SettingRequirements
Set this parameter according to the battery discharge features.
2-Shut Vol.
Parameter Typeand Interface
2-Shut Vol. is a basic parameter. Its interface is shown in Figure63.
FIGURE 63 2-SHUT VOL. INTERFACE
ParameterMeaning
Voltage of second low-level voltage disconnect. When the batteryvoltage is lower than the parameter value, the system generatesan alarm and shuts down all the loads.
Value Range 38 V to 49 V, 44 V by default.
Constraints: 2-Shut Vol. ≤ 1-Shut Vol.
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SettingRequirements
Set this parameter according to the battery discharge features.
LLVD-1 Ctrl
Parameter Typeand Interface
LLVD-1 Ctrl is a hidden parameter. Its interface is shown in Figure64.
FIGURE 64 LLVD-1 CTRL INTERFACE
ParameterMeaning
First Low-level voltage disconnection control.
Constraints:
When LLVD-1 Ctrl is disabled, LLVD-2 Ctrl is disabled automat-ically.
Value Range Enable/Disable. The default is Enable.
SettingRequirements
If the system is configured with LLVD1, set this parameter to En-able.
LLVD-2 Ctrl
Parameter Typeand Interface
LLVD-2 Ctrl is a hidden parameter. Its interface is shown in Figure65.
FIGURE 65 LLVD-2 CTRL INTERFACE
ParameterMeaning
Second Low— level voltage disconnection control.
Constraints:
When LLVD-1 Ctrl is disabled, LLVD-2 Ctrl is disabled automat-ically.
Value Range Enable/Disable. The default is Enable.
SettingRequirements
If the system is configured with the LLVD2 device, set this param-eter to Enable. If LLVD-1 Ctrl is disabled, LLVD-2 Ctrl is disabledautomatically.
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Auto Test, Period, and Start Time
Auto Test
Parameter Typeand Interface
Auto Test is a basic parameter. Its interface is shown in Figure66.
FIGURE 66 AUTO TEST INTERFACE
ParameterMeaning
This parameter is used to enable or disable auto test.
When it is enabled, the system tests (discharges) batteries accord-ing to the preset test period and test start time. After the test, thesystem charges the batteries automatically.
Value Range Enable/Disable. The default is Disable.
SettingRequirements
Set this parameter as Enable when Auto Test is needed.
Test Period
Parameter Typeand Interface
Test Period is a basic parameter. Its interface is shown in Figure67.
FIGURE 67 TEST PERIOD INTERFACE
ParameterMeaning
System test period. The period is from the previous auto-matic/manual test.
Note:
This parameter is valid only when Auto Test is enabled.
Value Range 15 to 365 days, 30 days by default.
SettingRequirements
Set the parameter as required at field.
Test StartTime
Parameter Typeand Interface
Test StartTime is a basic parameter. Its interface is shown inFigure 68.
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FIGURE 68 TEST STARTTIME INTERFACE
ParameterMeaning
Auto test start time.
Note:
This parameter is valid only when Auto Test is enabled.
Value Range 00:00 to 23:00, 10:00 by default.
SettingRequirements
Set the parameter as required at field.
Test Voltage and Max Test Hours
Test Vol.
Parameter Typeand Interface
Test Vol. is a basic parameter. Its interface is shown in Figure 69.
FIGURE 69 TEST VOL. INTERFACE
ParameterMeaning
It is used for battery test or detect.
� In an auto or manual battery test, when the battery voltagedecreases to this value, the test is terminated. It means thatthe system stops battery stops discharge and equalized chargebegins.
� In a periodical battery detect or manual detect, if the batteryvoltage decreases to this value within the battery test period,the battery cannot be discharged and the system gives a “Bat-tery Fault” alarm. If the battery does not decrease to this valuewithin the battery test period, the battery can be discharged.
Value Range 42.0 V to 48.0 V, 46.0 V by default.
Constraints: Test Vol. ≥ 1–shut Vol. +1
SettingRequirements
Set this parameter according to the test/detect requirements.
Test Max.Hours
Parameter Typeand Interface
Test Max.Hours is a hidden parameter. Its interface is shown inFigure 70.
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FIGURE 70 TEST MAX.HOURS INTERFACE
ParameterMeaning
Maximum battery test duration. Set the parameter to avoid bat-tery over-discharge. When the battery test duration reaches thisvalue, the system automatically terminates the test and switchesto the equalizing charge mode.
Value Range 0 H to 24 H, 8 H by default.
SettingRequirements
Set this parameter as required.
Battery Test Time and Period
Bat.Det.Time
Parameter Typeand Interface
Bat.Det.Time is a hidden parameter. Its interface is shown inFigure 71.
FIGURE 71 BAT.DET.TIME INTERFACE
ParameterMeaning
The system provides the battery detection function to automati-cally check whether a battery can supply power. If not, the systemgives the “Battery Fault” alarm.
After the battery detection function is enabled, the battery startsto discharge. The battery detection duration depends on this pa-rameter. When time is up, the system terminates the test auto-matically.
Value Range 1 to 5 minutes, 2 minutes by default.
SettingRequirements
Set this parameter as required.
Bat.Det.Period
Parameter Typeand Interface
Bat.Det.Period is a hidden parameter. Its interface is shown inFigure 72.
FIGURE 72 BAT.DET.PERIOD INTERFACE
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ParameterMeaning
The system provides the battery detection function to automati-cally check whether a battery can supply power. If not, the systemgives the “Battery Fault” alarm. After the battery detection func-tion is enabled, the battery starts to discharge.
The battery detection period depends on this parameter, startingfrom last test period including manual test. When it is time forbattery detection, the system lowers the output voltage to testvoltage in order to discharge the batteries and counts time.
Value Range 20 to 90 days, 30 days by default.
SettingRequirements
Set this parameter as required.
Temperature CompensationCoefficient and Current LimitTemperature CompensationCoefficient
Temp.Coeff.
Parameter Typeand Interface
Temp.Coeff. is a hidden parameter. Its interface is shown inFigure 73.
FIGURE 73 TEMP.COEFF. INTERFACE
ParameterMeaning
When the system charges batteries, it adjusts the charging voltagebased on the environment temperature. This function is to protectthe batteries from over-charge and insufficient charge. Usually,the charging voltage refers to the charging voltage when the en-vironment temperature is 25 ℃.For example, if Temp. Coeff. is set to “3 mV/℃”, each batteryvoltage changes by 3 mV when the temperature changes by 1℃.Charging voltage falls when the temperature rises; charging volt-age rises when the temperature falls.
For example, the system is configured with one -48 V battery packconsisting of 24 batteries (2 V/battery). The temperature com-pensation coefficient is set to 3 mV/℃. The battery temperatureis 30℃. The charging voltage decrease is calculated according tothe formula below.
⊿V=30℃-25℃×3 mV/℃×24=360 mV= 0.36 VIf the floating charge voltage is set to 53.5 V in floating chargemode, the system output voltage is: 53.5 V - 0.36 V = 53.14 V.
Value Range 0 mV/℃ to 8 mV/℃, 3 mV/℃ by default.
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SettingRequirements
Set this parameter according to the battery charging features.
Cur.Temp.Co.
Parameter Typeand Interface
Cur.Temp.Co. is a hidden parameter. Its interface is shown inFigure 74.
FIGURE 74 CUR.TEMP.CO. INTERFACE
ParameterMeaning
This parameter indicates the charging current rate (C/℃) to bedecreased when the battery temperature (T) is higher than 25℃.When the battery temperature is higher than 25℃, the system low-ers Cur. Limited through this parameter according to the batterytemperature, and thus to lower the maximum charging currentand avoid overcharge. So setting Cur.Temp.Co. can further lowerthe maximum charging current.
The formula is as follows:
I= Battery capacity ×[Cur. Limited - (T-25℃) × Cur.Temp.Co.]For example, the system is configured with a 300 Ah battery pack.Cur. Limited is set to 0.15C and Cur.Temp.Co. is set to 0.001C/℃.If the battery temperature is 30 ℃, the maximum charge currentis calculated as follows:
I=300 Ah× 0.15C- 30℃-25℃ ×0.001C/℃ =300 Ah× 0.15C-0.005C=43.5 A
Value Range 0 C/℃ to 0.010 C/℃, 0 C/℃ by default.
SettingRequirements
Set this parameter according to the battery charging features.
Note:
The decrease of Cur. Limited after temperature compensation can-not be greater than a half of the original Cur. Limited; otherwiseCur.Temp.Co. is invalid.
Temp.Volt.Max. and Temp.Volt.Min.
Parameter Typeand Interface
Temp.Volt.Max. and Temp.Volt.Min. are hidden parameters.Their interfaces are shown in Figure 75 and Figure 76 respectively.
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FIGURE 75 TEMP.VOLT.MAX. INTERFACE
FIGURE 76 TEMP.VOLT.MIN. INTERFACE
ParameterMeaning
It limits battery charge temperature compensation:
� The system compensates temperature only when Float Vol. orEqual Vol. lies between Temp.Volt.Max. and Temp.Volt.Min.
� If the compensated result is greater than Temp.Volt.Max.,the system takes Temp.Volt.Max. as the result. If the com-pensated result is less than Temp.Volt.Min., the system takesTemp.Volt.Min. as the result.
� The system does not compensate temperature if Float Vol.or Equal Vol. does not lie between Temp.Volt.Max. andTemp.Volt.Min.
Value Range � Temp.Volt.Max.: 50.0 V to 58.0 V, 57.0 V by default.
� Temp.Volt.Min.: 50.0 V to 58.0 V, 50.0 V by default.
� Constraints: Temp.Volt.Max. ≥ Temp.Volt.Min.
SettingRequirements
Set these two parameters according to the battery charging fea-tures.
Battery Temperature Threshold
Bat.Temp.Max.
Parameter Typeand Interface
Bat.Temp.Max. is a hidden parameter. Its interface is shown inFigure 77.
FIGURE 77 BAT.TEMP.MAX. INTERFACE
ParameterMeaning
Maximum battery temperature. When the temperature of a bat-tery increases to a value greater than Bat.Temp.Max., the moni-toring unit generates the “Bat Over-Temp” alarm.
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Value Range 30℃ to 60℃, 40℃ by default.
SettingRequirements
Set this parameter as required at field.
Bat.Temp.Min.
Parameter Typeand Interface
Bat.Temp.Min. is a hidden parameter. Its interface is shown inFigure 78.
FIGURE 78 BAT.TEMP.MIN. INTERFACE
ParameterMeaning
Minimum battery temperature. When the temperature of a bat-tery decreases to Bat.Temp.Min., the monitoring unit generatesthe “Bat Under-Temp” alarm.
Value Range –30℃ to 20℃, -5℃ by default.
SettingRequirements
Set this parameter as required at field.
Battery Discharge Threshold andStart Volt. Deviation in Trans
Bat.Disch.Valve
Parameter Typeand Interface
Bat.Disch.Valve is a hidden parameter. Its interface is shown inFigure 79.
FIGURE 79 BAT.DISCH.VALVE INTERFACE
ParameterMeaning
Threshold of battery discharge. When the battery dischargecurrent reaches this value, the system gives the “Bat.Discharge”alarm.
Value Range –4 A to –50 A, –10 A by default (discharge current is negative,while charge current is positive).
SettingRequirements
Set this parameter according the battery discharging features.
Volt.Dev.
Parameter Typeand Interface
Volt.Dev. is a hidden parameter. Its interface is shown in Figure80.
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FIGURE 80 VOLT.DEV. INTERFACE
ParameterMeaning
Voltage deviation in the transition phase. When mains recoversfrom failure, the rectifiers do not power the loads. The specifiedoutput is equal to the minimum battery voltage plus Volt.Dev..Therefore, the batteries can power the loads instead, and thus toavoid startup failure because of the generator startup problem.This process lasts about 30 seconds.
Value Range –2 to –0.5, –0.5 by default.
SettingRequirements
Set this parameter according the battery discharging features.
Work ModeSafe Mode
Safe mode is a redundancy work mode based on reliability.
In safe mode, the system calculates the number (N) of requiredrectifiers based on total load current and maximum battery chargecurrent and performs N+1 backup. N should be an integer. Theformula is shown as follows:
For example, total load current is 20 A, battery capacity is 300 Ah,and rated SMR output current is 50 A. If Cur. Limited is set to 0.15C, the number (N) of required rectifiers is equal to (20+300×0.15)/ (50×0.7)+1≈3.
Note:
Safe mode is limited by Smr Limit Num.. If the calculated valueis less than the preset value of Smr Limit Num., Smr Limit Num.is taken as the number of required rectifiers.
In safe mode, the system control turning-on of rectifiers based onthe following rules:
� When the system runs normally, if the number of normallyworking rectifiers is less than the number of required recti-fiers, the system automatically turns on rectifiers that are notworking until both numbers are the same.
� If the number of normally working rectifiers is greater than orequal to the number of required rectifiers, the system does
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not control rectifiers. That is, in safe mode the system canonly turn on rectifiers automatically.
Save Mode
Save Mode can guarantee that the rectifier efficiency is always thepeak value to save more power.
In the save mode, four work modes are available: Auto Save Mode,Temp NonSave Mode, Perm NonSave Mode, and Manual Detect.
Auto Save Mode Depending on whether the system satisfies the save conditions,auto save falls into Auto Save Mode and Auto NonSave Mode.
� When save conditions are not satisfied, the system enters AutoNonSave Mode automatically. All the rectifiers are opened.
� When save conditions are satisfied, the system enters AutoSave Mode. Smr Limit Num. and Rotate Period are involvedin auto save.
� In auto save mode, the number of normally working rec-tifiers controlled by the system equals the number of re-quired rectifiers (an integer). The system adjusts the num-ber of required rectifiers depending on real-time load cur-rent and charge current so that rectifiers can work withhigh efficiency. Meanwhile, the number of required recti-fiers must be greater than or equal to Smr Limit Num..
� In auto save mode, once the switching period is over,the system opens the rectifier that is shut down for thelongest time and shuts down the one that has worked forthe longest time. If the rectifier to be opened is faulty, thesystem does not shut down another rectifier to make surethat the number of normally running rectifiers equals thenumber of required rectifiers.
Temp NonSaveMode
In Temp NonSave Mode, the system performs the following oper-ations:
1. Opening all rectifiers first.2. After a period of NonSave Delay (24 hours by default), switch-
ing to auto save mode.
NonSave Delay can be configured in Setup Para > Batt Para> NonSave Delay.
Perm NonSaveMode
In Perm NonSave Mode, the system opens all the rectifiers andstays in this mode unless it is manually set to another work mode.
Manual Detect In this mode, maintenance personnel can check running of thesystem save program as well as battery and rectifier status.
After having entered the Manual Detect mode, the system per-forms the following operations:
1. Opening all the rectifiers first and triggering periodical batterydetect at the same time. Battery detect duration depends onthe setting of Bat.Det.Time, 2 minutes by default.
2. After battery detect, if save conditions are satisfied, switchingrectifiers; otherwise, after a certain delay, the system entersthe auto save mode.
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The process of switching rectifiers is as follows:
i. Opening the required rectifiers starting from the smallestnumber of slot in which a rectifier is in position.
ii. Turning on and then turning off all the in-position and nor-mally running rectifiers based on the slot sequence.
3. After a certain delay, switching to the auto save mode.
Free Mode
In the free mode, the monitoring software can freely control on/offof the rectifier without limit. In this mode, when the load currentis greater than the sum of rated current of all opened rectifiers,the rectifiers will limit current and lower voltage. As a result, thebatteries will discharge.
Caution:
Free mode is suitable for system debugging. Only professionalmaintenance personnel can use this mode.
Selecting Work Mode
Context The system supports three work modes: Safe Mode, Save Mode,and Free Mode. The default is Safe Mode.
Take Save Mode as the example. The operation flow is shown inFigure 81.
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FIGURE 81 SELECTING WORK MODE FLOW
Steps 1. Enter Ctrl, and then select 1. Setup Para.
2. Press Ent, and then press � to select 2. Batt Para.
3. Press Ent. The 1. Work Mode interface appears.
4. Press Ent.
5. Press � to switch work mode to Save Mode.
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6. Press Ent to save the setting.
END OF STEPS
Result By accessingMsg >Work Mode, users can check the work mode.The current work mode displayed in the interface is consistent withthe set work mode.
Work Mode Interface
Safe Mode
Free Mode
Save Mode � When the conditions are satisfied, the systemworks in Auto Save Mode.
� When the conditions are not satisfied, thesystem works in Auto NonSave Mode.
Smr Limit Num.
Parameter Typeand Interface
Smr Limit Num. is a hidden parameter. Its interface is shown inFigure 82.
FIGURE 82 SMR LIMIT NUM. INTERFACE
ParameterMeaning
The number of rectifiers that can be shut down through monitor-ing software is limited by this parameter. It is required that thenumber of running rectifiers cannot be less than this value.
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Value Range 1 to 2, 2 by default.
SettingRequirements
� In the save mode, this parameter should be 1 so that the sys-tem can save more power.
� If this value is set to 2, the system runs more reliably.
� The value 2 is recommended.
Save ManagementRotate Period
ParameterMeaning and Type
Rotate Period is a hidden parameter. Its interface is shown inFigure 83.
FIGURE 83 ROTATE PERIOD INTERFACE
ParameterMeaning
In auto save mode, the rectifier rotate period depends on this pa-rameter. Once the rotate period is up, the system rotates rectifiersaccording to the rules of three-phase balance and balanced work-ing hours, opening the rectifier that is shut down for the longesttime and shutting down the one that has worked for the longesttime.
Value Range 5 to 30 days, 7 days by default.
SettingRequirements
Set this parameter according to the requirements of save mode.
NonSave Delay
Parameter Typeand Interface
NonSave Delay is a hidden parameter. Its interface is shown inFigure 84.
FIGURE 84 NONSAVE DELAY INTERFACE
ParameterMeaning
In Temp NonSave Mode, the duration in nonsave mode dependson this parameter. After a NonSave Delay, the system switches toauto save mode automatically.
Value Range 0 H to 99 H, 24 H by default.
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SettingRequirements
Set this parameter according to the requirements of save mode.
Setting Auto Save
Prerequisites Work Mode is set to Auto Save Mode.
Context Three save modes are available: Auto Save Mode, Temp NonSaveMode, and Perm NonSave Mode. For more information, refer tothe Save Mode section.
This part describes how to set auto save mode manually. Theoperation flow is shown in Figure 85.
FIGURE 85 SETTING AUTO SAVE FLOW
Steps 1. Enter the Ctrl menu, and then select 2. OAM.
2. Press Ent.
3. Press � to select 6. Auto Save.
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4. Press Ent.
END OF STEPS
Result When “Succeed!” is displayed in the LCD screen, the system hasentered the auto save mode.
By accessing Msg > Work Mode, users can find the work modeis Auto Save Mode or Auto Nonsave Mode.
� When the conditions are satisfied, the system enters the autosave mode. Auto Save Mode is displayed in the LCD screen.
� When the conditions are not satisfied, the system works in theauto nonsave mode. Auto NonSave Mode is displayed in theLCD screen.
Setting Temp NonSave Mode
Prerequisites Work Mode is set to Auto Save Mode.
Context Three save modes are available: Auto Save Mode, Temp NonSaveMode, and Perm NonSave Mode. For more information, refer tothe Save Mode section.
This part describes how to set Temp NonSave Mode manually. Theoperation flow is shown in Figure 86.
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FIGURE 86 SETTING TEMP NONSAVE MODE FLOW
Steps 1. Enter the Ctrl menu, and then select 2. OAM.
2. Press Ent.
3. Press � to select 7. Temp NonSave.
4. Press Ent. The following interface appears.
5. Press � or � to change NonSave Delay or use the currentvalue.
6. Press Ent.
END OF STEPS
Result When “Succeed!” is displayed in the LCD screen, the system hasentered the Temp NonSave mode.
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By accessing Msg > Work Mode, users can find the work mode
is Temp NonSave Mode.
Setting Perm NonSave Mode
Prerequisites Work Mode is set to Auto Save Mode.
Context Three save modes are available: Auto Save Mode, Temp NonSaveMode, and Perm NonSave Mode. For more information, refer tothe Save Mode section.
This part describes how to set Perm NonSave Mode manually. Theoperation flow is shown in Figure 87.
FIGURE 87 SETTING PERM NONSAVE MODE FLOW
Steps 1. Enter the Ctrl menu, and then select 2. OAM.
2. Press Ent.
3. Press � to select 8. Perm NonSave.
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4. Press Ent. The following interface appears.
5. Press Ent.
END OF STEPS
Result When “Succeed!” is displayed in the LCD screen, the system hasentered the Perm NonSave mode.
By accessing Msg > Work Mode, users can find the work mode
is Perm NonSave Mode.
Manual Detect
Prerequisites Work Mode is set to Auto Save Mode.
Context Through Manual Detect, maintenance personnel can check runningof the save program, checking batteries and rectifiers manually.After Manual Detect, they can check battery status and rectifierstatus.
This part describes how to enter the Manual Detect mode. Theoperation flow is shown in Figure 88.
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FIGURE 88 SETTING MANUAL DETECT FLOW
Steps 1. Enter the Ctrl menu, and then select 2. OAM.
2. Press Ent.
3. Press � to select 9. Manual Detect.
4. Press Ent.
END OF STEPS
Result When “Succeed!” is displayed in the LCD screen, the system hasentered the Manual Detect mode.
By accessing Msg > Work Mode, users can find the work mode
is Manual Detect Mode.
After manual detect, the system displays three maintenancerecord interfaces. Press � or � to view the maintenance records
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(press Esc to quit the maintenance record interface). These threemaintenance records are described in the following table.
Interface Description
End time of this manual detect.
The result of battery check, which can beBattery Normal, Battery Fault, or BatteryNoDetect.� Battery Normal: Indicates that the
batteries can supply power normally.� Battery Fault: Indicates that the
batteries cannot supply power online.� Battery NoDetect: Indicates that the
battery is not detected.
The result can be All Normal or Fault.� All Normal: Indication that all the
in-position rectifiers work normally.� 1# Fault: Indicates that the rectifier in
Slot 1 is faulty.� If � is displayed in the interface, it
means that multiple rectifiers are faulty.Press � to view other information.
Output Relay ControlOutput Relay
Syntax Output Relay
ZXDU68 T301 supports 9 alarm output relay branches.
� ZXDU68 T301 supports one output relay branch for monitoringunit fault signal corresponding to X14 on the SIB board. Formore information, refer to Table 35.
� ZXDU68 T301 supports 8 output relay branches (A1~A8) foroutput signals. Each of them corresponds to the X15, X16,X17, X18 connectors on the SIB board. For more information,refer to Table 35.
� Relay control falls into auto control and manual control. Autocontrol is the default relay control mode.
� Relays (A1~A8) corresponding to alarm types are con-trolled by alarms automatically. Relay action depends onalarm settings. For default relays of alarms, refer to the
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appendix “Alarm List”. For how to change the correspon-dence between alarm types and relays, refer to SettingAlarm Attributes.
� Relays without corresponding alarm types are controlled bythe monitoring unit.
� Users can manually control relays through All Ctrl or Sin-gle Ctrl.
� After the system is reset, auto control is the default relaycontrol mode and all relays are reset.
TABLE 35 DESCRIPTION OF SIB BOARD OUTPUT SIGNALS CONNECTOR
Con-nector
Pin No. Signal Type Signal Description
1 FAULT-NO Monitoring unit fault- NO
2 FAULT-COM Monitoring unit fault-commonend
X14
3 FAULT-NC Monitoring unit faulty- NC
1 RO1-NO Relays output 1 NO
2 RO1-COM Relays output 1 common end
3 RO1-NC Relays output 1 NC
4 RO2-NO Relays output 2 NO
5 RO2-COM Relays output 2 common end
X15
6 RO2-NC Relays output 2 NC
1 RO3-NO Relay output 3 NO
2 RO3-COM Relays output 3 common end
3 RO3-NC Relays output 3 NC
4 RO4-NO Relays output 4 NO
5 RO4-COM Relays output 4 common end
X16
6 RO4-NC Relay output 4 NC
1 RO5-NO Relays output 5 NO
2 RO5-COM Relays output 5 common end
3 RO5-NC Relay output 5 NC
4 RO6-NO Relays output 6 NO
5 RO6-COM Relays output 6 common end
X17
6 RO6-NC Relay output 6 NC
X18
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Con-nector
Pin No. Signal Type Signal Description
1 RO7-NO Relays output 7 NO
2 RO7-COM Relays output 7 common end
3 RO7-NC Relay output 7 NC
4 RO8-NO Relays output 8 NO
5 RO8-COM Relays output 8 common end
6 RO8-NC Relay output 8 NC
All Ctrl
Context All Ctrl is a submenu of Relay Ctrl.
� Relay Ctrl is used to control output relay status manually. Ifcontrolled manually, output relay cannot be controlled by re-lated alarms. Instead, users can set or reset any relay manu-ally.
� Through the All Ctrl menu, users can reset or set all relaysmanually. The operation flow is shown in Figure 89.
� After quitting Relay Ctrl, relays can only be controlled byalarms.
Note:
Manual relay control is only used to debug the equipment. Autocontrol is the default relay control mode.
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FIGURE 89 FLOW OF ALL CTRL
Steps 1. Enter the Ctrl main menu by using the super password, andthen press � to choose 3. Relay Ctrl.
2. Press Ent to enter the Relay Ctrl interface.
3. Press Ent to enter the All Ctrl interface.
4. Press⊳ or � to choose reset or set.
5. Press Ent to reset or set all relays.
END OF STEPS
Result � After having bee reset, normally closed (NC) contacts areclosed, whereas normally open (NO) contacts are open.
� After having been set, normally closed (NC) contacts are open,whereas normally open (NO) contacts are closed.
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Single Ctrl
Context Single Ctrl is a submenu of Relay Ctrl.
� Relay Ctrl is used to control output relay status manually. Ifcontrolled manually, output relay cannot be controlled by re-lated alarms. Instead, users can set or reset any relay manu-ally.
� Through the Single Ctrl function, users can reset or set a sin-gle relay manually. Take setting Relay 3 as the example. Theoperation flow is shown in Figure 90.
� After quitting Relay Ctrl, relays can only be controlled byalarms.
Note:
Manual relay control is only used to debug the equipment. Autocontrol is the default relay control mode.
FIGURE 90 SINGLE CTRL FLOW
Steps 1. Enter the Ctrl main menu by using the super password, andthen press � to choose 3. Relay Ctrl.
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2. Press Ent to enter the Relay Ctrl interface.
3. Press � to select 2. Single Ctrl.
4. Press Ent to enter the Single Ctrl interface.
5. Press � to select Relay 3.
6. Press Ent to set Relay 3.
END OF STEPS
Result � After having bee reset, normally closed (NC) contacts areclosed, whereas normally open (NO) contacts are open.
� After having been set, normally closed (NC) contacts are open,whereas normally open (NO) contacts are closed.
Adjustment ParametersAC Cur.Slope
Parameter Typeand Interface
AC Cur.Slope is a hidden parameter. Its interface is shown inFigure 91.
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FIGURE 91 AC CUR.SLOPE INTERFACE
ParameterMeaning
AC current slope. It is used to minimize the AC current deviation.
Value Range 0.1 to 10, 1 by default.
SettingRequirements
Set this parameter according the adjustment requirements.
DC Vol.Zero
Parameter Typeand Interface
DC Vol.Zero is a hidden parameter. Its interface is shown in Fig-ure 92.
FIGURE 92 DC VOL.ZERO INTERFACE
ParameterMeaning
DC voltage zero. It is used to minimize the measurement erroror deviation between the DC voltage test value and the real-timevalue.
Value Range -1 V to 1 V, 0 V by default.
SettingRequirements
Set this parameter according the adjustment requirements.
Output Current Offset and Slope
DC Cur.Zero
Parameter Typeand Interface
DC Cur.Zero is a hidden parameter. Its interface is shown in Fig-ure 93.
FIGURE 93 DC CUR.ZERO INTERFACE
ParameterMeaning
DC current zero. It is used to minimize the measurement erroror deviation between the DC current test value and the real-timevalue.
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Value Range -50 A to 50 A, 0 A by default.
SettingRequirements
Set this parameter according to the adjustment requirements.
DC Cur.Slope
Parameter Typeand Interface
DC Cur.Slope is a hidden parameter. Its interface is shown inFigure 94.
FIGURE 94 DC CUR.SLOPE INTERFACE
ParameterMeaning
DC current slope. It is used to minimize the measurement erroror deviation between the DC current test value and the real-timevalue.
Value Range 0 to 10, 1 by default.
SettingRequirements
Set this parameter according to the adjustment requirements.
Bat. Vol.Zero
Parameter Typeand Interface
Bat. Vol.Zero is a hidden parameter. There are four similar pa-rameters. Take Bat.1 Vol.Zero as the example. Its interface isshown in Figure 95.
FIGURE 95 BAT.1 VOL.ZERO INTERFACE
ParameterMeaning
� Bat.1 Vol.Zero: Voltage zero of No. 1 battery group.
� Bat.2 Vol.Zero: Voltage zero of No. 2 battery group.
� Bat.3 Vol.Zero: Voltage zero of No. 3 battery group.
� Bat.4 Vol.Zero: Voltage zero of No. 4 battery group.
This parameter is used to minimize the measurement error or de-viation between the battery voltage test value and the real-timevalue.
Value Range -1 V to 1 V, 0 V by default.
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SettingRequirements
Set this parameter according to the adjustment requirements.
Bat. Cur.Zero
Parameter Typeand Interface
Bat. Cur.Zero is a hidden parameter. It includes four similarparameters. Take Bat.1 Cur.Zero as the example. Its interfaceis shown in Figure 96.
FIGURE 96 BAT.1 CUR.ZERO INTERFACE
ParameterMeaning
� Bat.1 Cur.Zero: Current zero of No. 1 battery group.
� Bat.2 Cur.Zero: Current zero of No. 2 battery group.
� Bat.3 Cur.Zero: Current zero of No. 3 battery group.
� Bat.4 Cur.Zero: Current zero of No. 4 battery group.
This parameter is used to minimize the measurement error or de-viation between the battery current test value and the real-timevalue.
Value Range -50 A to 50 A, 0 A by default.
SettingRequirements
Set this parameter according the adjustment requirements.
Bat. Cur.Slope
Parameter Typeand Interface
Bat. Cur.Slope is a hidden parameter. There are four parametersof the same type. Take Bat.1 Cur.Slope as the example. Itsinterface is shown in Figure 97.
FIGURE 97 BAT.1 CUR.SLOPE INTERFACE
ParameterMeaning
� Bat.1 Cur.Slope: Current slope of No. 1 battery group.
� Bat.2 Cur.Slope: Current slope of No. 2 battery group.
� Bat.3 Cur.Slope: Current slope of No. 3 battery group.
� Bat.4 Cur.Slope: Current slope of No. 4 battery group.
This parameter is used to minimize the measurement error or de-viation between the battery current test value and the real-timevalue.
Value Range 0 to 10, 1 by default.
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SettingRequirements
Set this parameter according to the adjustment requirements.
Bat. Temp.Zero
Parameter Typeand Interface
Bat. Temp.Zero is a hidden parameter. It includes four similarparameters. Take Bat.1 Temp.Zero as the example. Its interfaceis shown in Figure 98.
FIGURE 98 BAT.1 TEMP.ZERO INTERFACE
ParameterMeaning
� Bat.1 Temp.Zero: Temperature zero of No. 1 battery group.
� Bat.2 Temp.Zero: Temperature zero of No. 2 battery group.
� Bat.3 Temp.Zero: Temperature zero of No. 3 battery group.
� Bat.4 Temp.Zero: Temperature zero of No. 4 battery group.
This parameter is used to minimize the measurement error or devi-ation between the battery temperature test value and the real-timevalue.
Value Range –10℃ to 0℃, 0℃ by default.
SettingRequirements
Set this parameter according to the adjustment requirements.
Alarm ParametersSetting Alarm Attributes
Context Each type of alarm has two default attributes, including alarm leveland relay. For more information, refer to “Alarm List”.
� Alarm Level
AlarmLevel
Prompt
Major When a major alarm occurs, the alarm indicator andthe buzzer gives a sound. Meanwhile, the monitoringunit reports the alarm to the background monitoringcenter.
Minor When a minor alarm occurs, the alarm indicator is on.
Mask When a mask alarm occurs, the system does notgive any prompt.
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� Output Relay
ZXDU68 T301 provides eight output relays that can be self de-fined (A1 to A8). For more information, refer to “Output Relay”.If a relay is set to 0, this alarm type has not corresponding re-lay.
Take “6 AC Under-Vol” as the example. The operation flow is shownin Figure 99.
FIGURE 99 FLOW OF SETTING ALARM ATTRIBUTES
Steps 1. Enter Ctrl, and then select 1. Setup Para.
2. Press Ent, and then press �to select 3. Alarm Para
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3. Press Ent to enter 1. Set Alarm Attr..
4. Press Ent.
5. Press � to switch alarm attribute to 6 AC Under-Vol.
6. Follow the substeps below to change the alarm level.
i. Press � to move the cursor to Level.
ii. Press � or � to switch the alarm level (mask/minor/ma-jor). Take Major as the example.
7. Follow the substeps below to change the alarm relay.
i. Press � to move the cursor to Relay.
ii. Press � or � to change the relay (0, A1 to A8). Take A3as the example.
8. Press � to move the cursor to the number of alarm type.
9. To set attributes of other alarm types, repeat steps 5 to 8;otherwise, press Esc. The following interface appears.
10. Press Ent to save the setting.
END OF STEPS
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Result View the alarm type attributes. Users can find it has been changedas required.
AC Vol.Max.and AC Vol.Min.
AC Vol.Max.
Parameter Typeand Interface
AC Vol.Max. is a hidden parameter. Its interface is shown inFigure 100.
FIGURE 100 AC VOL.MAX. INTERFACE
ParameterMeaning
Maximum AC input voltage. When the AC input voltage increasesto this value, the monitoring unit generates the “AC Over-Vol”alarm.
Value Range 240 V to 300 V, 286 V by default.
SettingRequirements
Set this parameter according to the local electricity network.
AC Vol.Min.
Parameter Typeand Interface
AC Vol.Min. is a hidden parameter. Its interface is shown in Figure101.
FIGURE 101 AC VOL.MIN. INTERFACE
ParameterMeaning
Minimum AC input Voltage. When the AC input voltage de-creases to the value, the monitoring unit generates the “ACUnder-Vol”alarm.
Value Range 80 V to 200 V, 154 V by default.
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SettingRequirements
Set this parameter according to the local electricity network.
DC Vol.Max.and DC Vol.Min.
DC Vol.Max.
Parameter Typeand Interface
DC Vol.Max. is a hidden parameter. Its interface is show in Figure102.
FIGURE 102 DC VOL.MAX. INTERFACE
ParameterMeaning
Maximum DC output voltage. When the battery voltage increasesto a value greater than DC Vol.Max., the monitoring unit generatesthe “DC Over-Vol” alarm.
Value Range 53 V to 59 V, 58 V by default.
Constraints: DC Vol.Max. ≥ DC Vol.Min.+1
SettingRequirements
Set this parameter according to the input voltage requirements onDC loads.
DC Vol.Min.
Parameter Typeand Interface
DC Vol.Min. is a hidden parameter. Its interface is shown inFigure 103.
FIGURE 103 DC VOL.MIN. INTERFACE
ParameterMeaning
Minimum DC output voltage. When the battery voltage decreasesto a value less than DC Vol.Min., the monitoring unit generates the“DC Under-Vol” alarm.
Value Range 44 V to 55 V, 48 V by default.
Constraints: DC Vol.Min. ≤ DC Vol.Max.–1
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SettingRequirements
Set this parameter according to the input voltage requirements onDC loads.
Environment Temperature/HumidityThreshold
Env.Temp.Max.
Parameter Typeand Interface
Env.Temp.Max. is a hidden parameter. Its interface is shown inFigure 104.
FIGURE 104 ENV.TEMP.MAX. INTERFACE
ParameterMeaning
Maximum environment temperature. When the environment tem-perature increases to a value greater than Env.Temp.Max., themonitoring unit generates the “Env Over-Temp” alarm.
Value Range 30℃ to 60℃, 45℃ by default.
SettingRequirements
Set this parameter according to the actual environment require-ments.
Env.Temp.Min.
Parameter Typeand Interface
Env.Temp.Min. is a hidden parameter. Its interface is shown inFigure 105.
FIGURE 105 ENV.TEMP.MIN. INTERFACE
ParameterMeaning
Minimum environment temperature. When the environment tem-perature decreases to a value lower than the “Env.Temp.Min.”, themonitoring unit generates the “Env Under-Temp” alarm.
Value Range -30℃ to 20℃, -5℃ by default.
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SettingRequirements
Set this parameter according to the actual environment require-ments.
Env.Hum.Max.
Parameter Typeand Interface
Env.Hum.Max. is a hidden parameter. Its interface is shown inFigure 106.
FIGURE 106 ENV.HUM.MAX. INTERFACE
ParameterMeaning
Maximum environment humidity. When the environment humidityincreases to a value greater the “Env.Hum.Max.”, the monitoringunit generates “Env Over-Hum” alarm.
Value Range 70 to 100, 90 by default.
SettingRequirements
Set this parameter according to the actual environment require-ments.
Env.Hum.Min.
Parameter Typeand Interface
Env.Hum.Min. is a hidden parameter. Its interface is shown inFigure 107.
FIGURE 107 ENV.HUM.MIN. INTERFACE
ParameterMeaning
Minimum environment humidity. When the environment humiditydecreases to a value lower than the “Env.Hum.Min.”, the monitor-ing unit generates “Env Under-Hum” alarm.
Value Range 10 to 50, 20 by default.
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SettingRequirements
Set this parameter according to the actual environment require-ments.
Operation and MaintenanceManagement
SMR ON...
Context Through SMR ON..., users can manually turn on an in-positionclosed rectifier (it is shut down through software, and the rectifierstatus is ).
The operation flow is shown in Figure 108.
FIGURE 108 FLOW OF TURNING ON SMR THROUGH SOFTWARE
The interface for selecting rectifier is described in the figure below.
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Note:
SMR ON... cannot control a rectifier that is faulty, not in positionor is turned on.
Steps 1. Enter the Ctrl menu, and then select 2. OAM.
2. Press Ent, and then select 1. SMR ON....
3. Press Ent. If “Abort!” is displayed in the LCD screen, no recti-fier can be turned on. This operation is done. If there is anyrectifier available, the following interface appears.
4. Press � or � to select the rectifier to be turned on.
5. Press Ent.
END OF STEPS
Result When “Succeed!” is displayed on the LCD screen, the system hasturned on the rectifier. The status of the rectifier is as follows:
� The status icon is changed to .
� Both IN and OUT indicators on the rectifier panel are on.
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SMR OFF...
Context Through SMR OFF..., users can manually shut down an in-positionand normally-working rectifier (the rectifier status is ).
The operation flow is shown in .
FIGURE 109 FLOW OF TURNING OFF SMR THROUGH SOFTWARE
The interface for selecting rectifier is described in the figure below.
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Note:
SMR OFF... cannot control a faulty, not in-position, or rectifierthat has been shut down. In addition, in safe mode and savemode, the number of rectifiers that can be shut down is limited.
Steps 1. Enter the Ctrl menu, and then select 2. OAM.
2. Press Ent, and then select 2. SMR OFF....
3. Press Ent. If “Abort!” is displayed in the LCD screen, no recti-fier can be turned off. This operation is done. If there is anyrectifier available, the following interface appears.
4. Press � or � to select the rectifier to be turned off.
5. Press Ent.
END OF STEPS
Result When “Succeed!” is displayed on the LCD screen, the system hasturned off the rectifier. The status of the rectifier is as follows:
� The status icon is changed to .
� The IN indicator is on, but the OUT indicator is off.
Setting Float Charge
Context Through FLOAT..., users can manually enable float charge. As aresult, the system can perform float charge according to the presetfloat charge voltage, which is 53.5 V by default.
The operation flow is shown in Figure 110.
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FIGURE 110 SETTING FLOAT FLOW
Steps 1. Enter the Ctrl menu, and then select 2. OAM.
2. Press Ent, and then select 3. FLOAT....
3. Press Ent.
4. If “Succeed” or “Abort!” is displayed in the LCD screen, pressEsc to return to the upper-layer interface.
END OF STEPS
Result When “Succeed!” is displayed on the LCD screen, float charge hasbeen enabled.
By accessing Msg > Battery, users can find that battery is in the
“Float Mng” status.
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Setting Equalized Charge
Context Through EQUAL..., users can manually enable equalized charge.As a result, the system can perform float charge according to thepreset equalized charge voltage, which is 56.4 V by default.
The operation flow is shown in Figure 111.
FIGURE 111 SETTING EQUALIZED CHARGE FLOW
Steps 1. Enter the Ctrl menu, and then select 2. OAM.
2. Press Ent, and then select 4. EQUAL....
3. Press Ent.
4. If “Succeed” or “Abort!” is displayed in the LCD screen, pressEsc to return to the upper-layer interface.
END OF STEPS
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Result When “Succeed!” is displayed on the LCD screen, equalized chargehas been enabled.
By accessing Msg > Battery, users can find that battery is in the
“Equal Mng” status.
Set Test
Prerequisites Mains input is normal.
Context Through TEST..., users can manually control battery discharge. Totest battery performances, enable this function when mains inputis normal. As a result, the system lowers the output voltage andbatteries start to give power. After a specified period of time, thesystem terminates the test automatically and performs equalizedcharge.
Caution:
TEST... is only for testing battery performances.
The operation flow is shown in Figure 112.
FIGURE 112 SETTING TEST FLOW
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Steps 1. Enter the Ctrl menu, and then select 2. OAM.
2. Press Ent, and then select 5. TEST....
3. Press Ent.
4. If “Succeed” or “Abort!” is displayed in the LCD screen, pressEsc to return to the upper-layer interface.
END OF STEPS
Result When “Succeed!” is displayed on the LCD screen, the system hasstarted battery test.
By accessing Msg > Battery, users can find that battery is in the
“Test Mng” status.
Delete RecordsContext Delete Records is used to delete all the history records, such as
history alarm records, operation records, discharge records, peakvalue records, and maintenance records.
Delete Records is a hidden parameter. Only the administratorcan perform this operation.
Caution:
History records can help maintenance personnel locate fault rea-sons, so perform this operation with caution!
The operation flow is shown in Figure 113.
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FIGURE 113 DELETE RECORDS FLOW
Steps 1. Enter Ctrl with the superuser password, and then press � toselect 4. Delete Records.
2. Press Ent. The following interface appears.
3. Press Ent to delete records or press Esc to quit.
END OF STEPS
Result � History alarm records, discharge records, peak value records,and maintenance records are cleared. For example, by access-ing Rec > Alm Rec., users can find the following interface isdisplayed in the LCD screen.
� History operation records are cleared. Only the current opera-tion record is not cleared. By accessing Rec > Operate Rec.,users can find only one operation record.
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Load Run ParaPrerequisites Users can operate Load Run Para only when they need to debug
the equipment in the debugging stage.
Caution:
Be careful to load all para in system running.
Context Battery parameters and alarm parameters are running parame-ters. Load Run Para can reset all the running parameters to thedefault value. For the default value of each parameter, refer to theappendix “Alarm List”.
The operation flow is shown in Figure 114.
FIGURE 114 FLOW OF LOADING RUNNING PARAMETERS
Steps 1. Enter Ctrl with the superuser password, and then press � toselect 5. Load All Para.
2. Press Ent. The following interface appears.
3. Press Ent to reset all parameters or press Esc to quit.
END OF STEPS
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Result The battery parameters and alarm parameters are reset to defaultvalues. The monitoring unit is restarted and returns to the maininterface.
� By accessing submenus in Ctrl > Setup Para > Batt Para,users can find that all the battery parameters are reset to thedefault value.
� By accessing submenus in Ctrl > A Para > Alarm Para, userscan find that all the alarm parameters are reset to the defaultvalue.
Load All ParaPrerequisites Users can operate Load All Para only when they need to debug
the equipment in the debugging stage.
Caution:
Be careful to load all para in system running.
Context , Load All Para can reset all parameters except Current Dateand Current Time. For the default value of each parameter, referto the appendix “Alarm List”.
The operation flow is shown in Figure 115.
FIGURE 115 FLOW OF LOADING ALL PARAMETERS
Steps 1. Enter Ctrl with the superuser password, and then press � toselect 6. Load All Para.
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2. Press Ent. The following interface appears.
3. Press Ent to reset all parameters or press Esc to quit.
END OF STEPS
Result The system parameters, battery parameters, alarm parameters,and adjustment parameters are reset to default values. The mon-itoring unit is restarted and returns to the main interface.
� By accessing submenus in Ctrl > Setup Para > Sys Para,users can find that all the system parameters are reset to thedefault value except Current Date and Current Time.
� By accessing submenus in Ctrl > Setup Para > Batt Para,users can find that all the battery parameters are reset to thedefault value.
� By accessing submenus in Ctrl > A Para > Alarm Para, userscan find that all the alarm parameters are reset to the defaultvalue.
Downloading ProgramPrerequisites Download App must be used together with the monitor software
upgrading program to upgrade the monitor software. Therefore,before downloading App, make sure that the conditions are sat-isfied; otherwise the monitoring unit will be down. Perform thisoperation with caution!
The software upgrading is not described in this manual.
Context Download App is a hidden menu. Only the administrator canperform this operation.
The operation flow is shown in Figure 116.
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FIGURE 116 DOWNLOAD APP FLOW
Steps 1. Enter Ctrl with the superuser password, and then press � toselect 7. Download App.
2. Press Ent. The following interface appears.
3. Press Ent to download App or press Esc to quit.
END OF STEPS
Result The new program is downloaded into the monitoring unit.
Download FontPrerequisites Download Fontmust be used together with the monitor software
upgrading program to upgrade the monitor software. Therefore,before downloading font, make sure that the conditions are sat-isfied; otherwise the monitoring unit will be down. Perform thisoperation with caution!
The software upgrading is not described in this manual.
Context Download Font is a hidden menu. Only the administrator canperform this operation.
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The operation flow is shown in Figure 117.
FIGURE 117 DOWNLOAD FONT FLOW
Steps 1. Enter Ctrl with the superuser password, and then press � toselect 8. Download Font.
2. Press Ent. The following interface appears.
3. Press Ent to download font or press Esc to quit.
END OF STEPS
Result The new font is downloaded into the monitoring unit.
Other InstructionsShortcut Menu
To enter the shortcut menu:
Press simultaneously and to enter the shortcut menu, asshown in .
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The shortcut interface is described in Table 3.
FIGURE 118 SHORTCUT MENU INTERFACE
TABLE 3 DESCRIPTION OF SHORTCUT MENU INTERFACE
Item Description Function
Help Message To view the help information.
Trace Message To view the trace message (for main-tenance personnel).
Main Menu To enter the main menu.
Screen Save To start the screen saver.
Help Message Interface
Short Description Help Message provides introductions for all menus and parame-ters. Under any interface, if the Help Message function is ac-tivated, the explanation for the current menu/parameter will bedisplayed.
[Method 1] 1. Press simultaneously and to enter the shortcut menu, asshown in Shortcut Menu.
2. Move the cursor to and press Ent to display the help mes-sage interface.
[Method 2] Press simultaneously and Ent with any interface on the LCD toenter the help message interface of a corresponding interface.
Example Press simultaneously and Ent in the Float Vol. interface (seeFigure 119) to enter its help message interface (see Figure 120).
FIGURE 119 “FLOAT VOL.” INTERFACE
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FIGURE 120 HELP MESSAGE FOR “FLOAT VOL.”
Debug Message Interface
Short Description The debug message interface is for the maintenance personnel.Users need not care about it.
Interface Access
Enter the Debug Msg. interface in one of the following ways:
� In the shortcut menu interface (see Shortcut Menu):
� Press to move the cursor to (see Figure 121).
FIGURE 121 SHORTCUT MENU WITH “DEBUG MSG.” SELECTED
� Press Ent to enter the Debug Msg. interface, as shown inFigure 122.
FIGURE 122 “DEBUG MSG.” INTERFACE
� In other interfaces, press simultaneously and Ent to enterthe Debug Msg. interface, as shown in .
Screen Saver
Interface Access
To start screen saver in one of the following ways:
� In the shortcut menu interface (see Shortcut Menu):
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� Press or to move the cursor to (see Figure 123 ).
Note:
There is no need to press or when the cursor is alreadyon “screen save”.
FIGURE 123 SHORTCUT MENU WITH “SCREEN SAVE” SELECTED
� Press Ent to turn off the LCD backlight and start the screensaver. Then the system information interface will be dis-played, as shown in Figure 124.
FIGURE 124 SYSTEM INFORMATION INTERFACE
� In case of no key operation for 10 minutes or longer, the moni-toring unit automatically turns off the LCD backlight and startsthe screen saver (see Figure 124.
Interface Description
The system information interface is described in Figure 125.
FIGURE 125 DESCRIPTION OF SYSTEM INFORMATION INTERFACE
Note:
press Ent/Esc to return to the main menu interface.
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C h a p t e r 6
Emergency Handlingand Maintenance
Table of ContentsEmergency Handling ........................................................ 133Maintenance ................................................................... 135Storage Requirements...................................................... 147
Emergency HandlingEmergency Handling Principle
The basic principle of emergency handling is to keep the DC powersupply for the communication equipment.
In power system, the following faults will affect communicationquality or cause communication interruption:
� Permanent damage of the circuit in the AC distribution unit.
� Short circuit of the DC load or the DC distribution unit.
� All the rectifiers are faulty.
� The disorder of the monitoring unit leads to the system shut-down.
� DC over-voltage leads to the shutdown or lock of the rectifiers.In this case, turn off the AC power, troubleshoot the fault andthen restart the rectifiers.
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Emergency Handling of ACDistribution Unit
TABLE 36 EMERGENCY HANDLING OF AC DISTRIBUTION UNIT
Symptom Solution
The fault of the AC distributionunit leads to the interruption ofthe AC input power.
Directly introduce AC power intothe rectifiers.
Emergency Handling of DCDistribution Unit
TABLE 37 EMERGENCY HANDLING OF DC DISTRIBUTION UNIT
Symptom Solution
The system has no output on aload branch due to short circuit.
Turn OFF the corresponding loadair switch.
The short circuit of the DCdistribution unit affects thecommunication.
� [Solution 1] Turn OFF the ACinput, disconnect the batteriesfrom the system, and use thebatteries to power the loadsdirectly.
� [Solution 2] .
Disconnect the rectifiers fromthe system. Connect the ACinput cables and DC outputcables to their respective I/Oterminals.
Turn ON the AC input to powerthe rectifiers and the rectifierswill power the loads directly.
Emergency Handling of MonitoringUnit
Note:
When the system works without the monitoring unit, the systemdoes not have the function of battery management.
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TABLE 38 EMERGENCY HANDLING OF MONITORING UNIT
Symptom Solution
The fault of the monitoring unitaffects the DC output of the powerequipment.
Uninstall the monitoring unit andtroubleshoot it.
Emergency Handling of Rectifier
TABLE 39 EMERGENCY HANDLING OF RECTIFIER
Symptom Solution
Some rectifiers are faulty. If the remaining normal rectifiersare able to power the loads, justpull out the faulty rectifiers.
When the load current is lowerthan the capacity of one rectifier,the output over-voltage ofsome rectifier will lead to theover-voltage of the power systemand all the rectifiers will be inover-voltage protection status.This fault cannot automaticallyrecover.
1. After confirming that thebatteries are able to supplypower normally, turn OFF theair-switches of all rectifiers.
2. Turn ON the rectifierair-switches one by one.The corresponding rectifier isfaulty if the DC over-voltagealarm occurs again when anair-switch is turned ON. Inthis case replace the faultyrectifier.
3. Turn OFF the AC input power.4. Turn ON the air-switches of all
the rectifiers.5. Turn ON the AC input power
to restart the rectifiers. Thenthe system will work normally.
MaintenanceRoutine Maintenance
Short Description Periodically check and maintain the power supply system to ensurethe system works normally and reliably and to prolong the servicelife of the system.
Table 40 describes routine maintenance items.
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TABLE 40 ROUTINE MAINTENANCE ITEMS
MaintenanceItem Description
Surge arrester
Each day or after lightning storm, check whetherthe lightning arresters are damaged. If yes, repairor replace them in time.
[Acceptance Criteria]
� Varistors of class C lightning arresters arenormal. Window display of the arresters isGREEN or COLORLESS.
� If three indicators of DC surge arrester are onat the same time, the internal fuse is normal.
[Check Methods]
1. Observe the window of the class C lightningarrester. If the window turns red, the arrestersare faulty. Replace the arresters.
2. Observe the three indicators of DC surgearrester to see if they are all glowing. Ifone of them is off, it means the fuse of thecorresponding DC arrester loop is OFF andthe fuse needs to be replaced. Even if one ortwo indicators are OFF, DC surge arrester stillhas the function of DC lightning protection.However, if all of the three indicators are OFF,DC surge arrester will cease to be in effect andfuses have to be replaced.
Communicationfunctions
[Acceptance Criteria]
Each unit of the system communicates normallywith the monitoring unit. There is no such alarm inhistory alarm records that some single unit has lostcommunication for several times.
[Check Methods]
Check alarm info through the monitoring unit orthrough background monitoring software.
Rectifiers loadsharing function
[Prerequisite]
Make sure that the load current of ZXDU68 T301system is not less than 50% of its rated outputcurrent.
[Acceptance Criteria]
Observe the output current displayed on the frontpanel of the rectifier.
Each current display has ten LEDs. If the digitsnumber of the lit LEDs on the current display of allthe rectifiers is the same or the difference is 1, therectifiers load sharing quality is good.
[Check Methods]
If the difference between the digits of the lit LEDsis greater than 1 then the load sharing quality isundesirable. In this case, follow the steps below toimprove the load sharing quality.
Before performing the following steps, make surethat the batteries are connected to the system andthey can power the loads. Otherwise, the load maybe shut down when a rectifier module is unplugged.
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MaintenanceItem Description
Each time only one rectifier can be unplugged duringthe operation to improve the current equalizationquality.
1. Unplug Rectifier 1, and then observe the outputcurrent on the front panel of the other rectifiersto check the rectifiers load sharing quality.
If the digits number of the lit LEDs on thecurrent display of all the rectifiers is the sameor the difference is 1, the rectifiers load sharingquality is good.
– A good load sharing quality indicates thatRectifier 1 is faulty. In this case, replace itwith a new one.
– If the load sharing quality is undesirable,go to the next step.
2. Re-install Rectifier 1 in Slot 1 and unplugRectifier 2. Then observe the output current onthe front panel of the other rectifiers to checkthe rectifiers load sharing quality.
– A good load sharing quality indicates thatRectifier 2 is faulty. In this case, replace itwith a new one.
– If the load sharing quality is undesirable,go to the next step.
3. Find the faulty rectifier by repeating Step 2.4. Replace the faulty rectifier.
Monthly Maintenance
Short Description Periodically check and maintain the power supply system to ensurethat the system works normally and reliably and to prolong thesystem life span.
The items described in Table 41 should be checked every month.
TABLE 41 MONTHLY MAINTENANCE ITEMS
Maintenance Item Description
Cable connection
Check the input and output cables. Checkif connection terminals of the cables aredisconnected or in poor contact, and checkif the cables are damaged. If any cable isdamaged, replace it in time.
[Acceptance Criteria]
Sockets are properly connected; cables areproperly laid and fixed; cables are free fromdistortion due to crush; cables are free frompartial overheat or aging.
[Check Methods]
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Maintenance Item Description
Check whether cables comply with the abovecriteria. Especially, check whether the lightningarrester cables, grounding cables, batterycables and AC input cables are securelyconnected.
System parameters
Check whether the system parameters arenormal.
[Acceptance Criteria]
Check the parameters according to the pre-setvalues.
[Check Methods]
If any parameter does not meet therequirements, reset it.
Protection function
[Acceptance Criteria]
Check the protection function according to theparameters set through the monitoring unitand those adjusted before delivery.
[Check Methods]
Normally, it’s improper and insecure to checkthe protection function when the equipment isrunning, but if the AC or DC protection occursfrequently, the protection function may beabnormal. In this case, check the protectionfunction. Check methods:� Connect an external voltage regulator and
test the AC under-/over-voltage protectionfunction.
� Intentionally discharge the batteries andtest the DC under-voltage function.
Management function
[Acceptance Criteria]
The management functions are performed bythe monitoring unit. It records system alarminfo for query and controls the battery chargingmode and charging current with protection.
[Check Methods]
1. History record: Imitate an alarm to checkwhether the monitoring unit can recordthis alarm.
2. Battery management: check whether themonitoring unit can control the batterycharging mode and charging currentaccording to the parameters set by theuser, and whether it can execute variousprotection measures.
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Chapter 6 Emergency Handling and Maintenance
Maintenance Item Description
DC air switchconfiguration
[Acceptance Criteria]
The rated current of a DC air switch shouldnot be higher than two times of the maximumload current. The rated current of various airswitches in the equipment room should not behigher than 1.5 times of the maximum loadcurrent.
[Check Methods]
According to the record of the maximum loadcurrent, check whether the air switches complywith the above criteria.
Cleanliness
Clean the power supply system to keep it freefrom dust and the other undesirable things.
[Acceptance Criteria]
The rectifier fan should get air smoothlywithout obstacle and dust. The other parts ofthe equipment should also be free from dust.
[Check Tools]
Brush, duster cloth and special-purpose dustcollector etc.
[Check Methods]
Remove the air-duct baffle and the fan, cleanand dry them, and then reinstall them.
Installing and Uninstalling MonitoringUnit with System Operating
Short Description The monitoring unit is hot-pluggable. During the system opera-tion, the monitoring unit can be uninstalled and installed for main-tenance or troubleshooting purpose.
Note:
� The system can work normally without the monitoring unit;however, the system will have no communication function, andthe batteries will be in the floating charge mode.
� Before uninstalling the monitoring unit, turn off its powerswitch.
� After installing the monitoring unit, turn on its power switch.
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Uninstalling theMonitoring Unit
1. Unscrew the captive bolt.
2. Grasp the handle with one hand and hold the monitoring unitwith the other hand
3. Draw the monitoring unit out of the cabinet slowly.
Installing theMonitoring Unit
1. Grasp the handle with one hand.2. Hold the monitoring unit with another hand and push it slowly
into the monitoring unit slot of the cabinet with equal force.
3. Screw the fastening bolt to connect the monitoring unit firmly.
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Chapter 6 Emergency Handling and Maintenance
Installing and Uninstalling Rectifierswith System Operating
Short Description The rectifier is hot-pluggable. During the system operation, toexpand capacity or replace a faulty rectifier, the rectifier modulecan be uninstalled and installed with system operating.
Caution:
When installing or uninstalling the rectifier module with systemoperating, operate slowly to avoid electric shock.
Installing aRectifier
The installation method is shown in Figure 126.
FIGURE 126 RECTIFIER INSTALLATION
1. Turn off the corresponding air switch.
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2. Use one hand to grasp the handle and use the other hand tohold the rectifier. Push the rectifier slowly into the slot witheven force until it is installed firmly.
3. Make sure the rectifier is pushed to the proper position ( thestop pin is blocked).
Uninstalling aRectifier
Figure 127 shows the uninstallation method.
1. Turn off the air switches of the rectifiers to beuninstalled. The rectifiers air switches location is
below.2. Grasp the handle on the front panel and lift the rectifier until
the stop pin is loosened.3. Slowly draw the rectifier from the slot.
FIGURE 127 RECTIFIER UNINSTALLATION
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Chapter 6 Emergency Handling and Maintenance
Adding Load with System Operating
Prerequisites � The system is not yet running at full load, it can meet the powerrequirement of the additional load.
� Some load branches with enough capacity, available in systemcabinet can be used to connect additional load.
Context Once the load starts to operate, it usually requires uninterruptedpower supply. Therefore, other loads should be added with poweron.
Danger:
Before any DC load is added, take insulation measures upon thetools to be used; take precautionary measures, and prepare inadvance for any accident.
To add load with power on:
Steps 1. Make an engineering plan and prepare proper load fuse (or airswitch).
2. Unplug the fuse or turn off the air switch. Then prepare thecables to connect the load and lay them. Mark the cables withnumber and polarity.
3. Connect the following cables:
i. grounding wire.
ii. –48 V cable to the fuse (or air switch).
4. Make sure that the power switch of the load is off.
5. In the ZXDU68 T301 system, turn on the load fuse (or airswitch).
6. Make sure that the power voltage of the load is normal and thepolarity is correct.
7. Turn on the power switch of the load.
END OF STEPS
Uninstalling Top Cap
Context The top cap has the following characteristics:
� Weight: 9.5 kg
� External dimensions: 400 mm x 598 mm x 400 mm (H x W xD).
� The structure is composed of two side plates, one front plateand one rear plate, as shown in Figure 128.
� The installation sequence is the following: Side plates installa-tion®Front and rear plates installation.
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FIGURE 128 TOP CAP STRUCTURE
Caution:
� The front plate has an edge on the right side.
� Prevent the top cap from falling during installation.
� Remove the two bolts on the lower and front parts before re-moving the front/rear side of the top cap.
� Use an insulated cross screwdriver to fix the bolts.
Steps 1. Open the cabinet front door, remove the two bolts on the lowerpart of the front plate, as shown below.
2. Close the front door, then remove the four flat head screw cov-ers and the four bolts on the top cap front plate.
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3. Lift up the front plate as shown below.
4. Use the above procedure to remove the rear plate.
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5. Remove all the dust cap units on the cabinet top if installed.
6. Remove the bolts on the lower parts of each side plate beforeremoving them.
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END OF STEPS
Storage Requirements� Storage temperature: -40℃ ~+70℃� Storage time: one year
� Keep the original package and place the equipment accordingto the direction marked on the package.
� The equipment should be stored in a dry warehouse and keptfrom being exposed to strong sunshine or rain.
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C h a p t e r 7
Alarm Handling
Table of ContentsOverview of Alarm Handling.............................................. 149Monitoring Unit Troubleshooting ........................................ 150
Overview of Alarm HandlingAlarm Description
Short Description For ZXDU68 T301 system, there are three alarm levels: majoralarm, minor alarm and alarm mask. Alarm levels can be setthrough the background monitoring software.
� In case of any alarm, the red ALM indicator glows.
� In case of a major alarm, the buzzer rings; in case of a minoralarm, the buzzer does not ring.
When the buzzer rings, press any key of the monitoring unit tomute the alarm sound. If the fault persists in half an hour, thebuzzer will ring again.
� In case of any alarm, the monitoring unit will give related textmessages.
� If remote centralized monitoring is realized by MODEM mode,the monitoring unit will report the alarm information to remotemonitoring center or inform maintenance personnel throughpre-set telephone number or BP number in case that any crit-ical fault occurs.
Muting Alarm Buzzer
ZXDU68 T301 system is provided with three alarm levels: ma-jor alarm, minor alarm and alarm mask. Alarm levels can be setthrough the background monitoring software.
� In case of a major alarm, the buzzer rings; in case of a minoralarm, the buzzer will not ring.
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When the buzzer rings, press any key on the front panel ofthe monitoring unit to mute the alarm sound. And If the faultpersists for half an hour, the buzzer will ring again.
� If remote centralized monitoring is realized in MODEM mode,the monitoring unit will report the alarm information to remotemonitoring center or inform maintenance personnel throughpre-set telephone number or BP number in case that any crit-ical fault occurs.
Monitoring UnitTroubleshootingThe table below shows the troubleshooting method for some com-mon faults occurring in the monitoring unit.
TABLE 42 MONITORING UNIT TROUBLESHOOTING
Symptom Solution
The PWRindicator isoff
Uninstall the monitoring unit and reinstall it.
Disorderof the LCDdisplay
Reset the monitoring unit by pressing the RST key; ifthe fault persists, take out the monitoring unit andtroubleshoot it.
Communi-cation inter-ruption be-tween themonitoringunit and thebackgroundmonitoring
Check if the communication cables used for backgroundmonitoring are reliably connected.
Themonitoringunit cannotdetect thestatus ofSMRs
� Check the baud rate, check if the devicesconfiguration address is correct.
� Check if the communication cables used forbackground monitoring are reliably connected.
Themonitoringunit cannotdetect thebatterytemperaturenormally
Check if the temperature sensor cable is reliablyconnected to the SIB board
Themonitoringunit cannotdetect the
Check if the cables between the relay input and the SIBboard are reliably connected
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Chapter 7 Alarm Handling
Symptom Solution
relay inputnormally
The RUNindicator isoff
Reset the monitoring unit by pressing the RST key; ifthe fault persists, take out the monitoring unit andtroubleshoot it.
Invalidkeypadoperation
Take out the monitoring unit and troubleshoot it.
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A p p e n d i x A
Operating Principles andFunctions
Table of ContentsSystem Operating Principles.............................................. 153Operating Principles of AC Distribution Unit ......................... 154Operating Principles of DC Distribution Unit......................... 154Operating Principles of Rectifier ......................................... 155Functions of the Monitoring Unit ........................................ 157
System Operating PrinciplesFigure 129 shows the block diagram of the ZXDU68 T301 systemoperating principle.
FIGURE 129 OPERATING PRINCIPLES OF THE ZXDU68 T301
� The AC distribution unit inputs and distributes the AC powersupply and performs the related protection function.
� The rectifiers perform AC/DC conversion.
� The DC distribution unit outputs DC power, connects battery tothe system and performs load protection.
� The monitoring unit collects information, performs signal con-version and alarm functions.
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Operating Principles of ACDistribution UnitThe operating principles of the AC distribution unit are shown inFigure 130.
FIGURE 130 OPERATING PRINCIPLES OF AC DISTRIBUTION UNIT
� The two AC input branches supply AC power to the rectifiersthrough the switching unit (if there is only one AC input branch,the switching unit is not needed).
� The AC transducer transmits the required AC input parametersto the monitoring unit.
� The lightning protection (or AC input lightning protection) is alightning proof unit.
� Each AC input phase provides an appropriate AC auxiliary out-put, to supply an auxiliary AC power to the loads.
Operating Principles of DCDistribution UnitFigure 131 shows the block diagram of DC power distribution unit.
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Appendix A Operating Principles and Functions
FIGURE 131 DC DISTRIBUTION UNIT OPERATING PRINCIPLES
� The rectifiers supply power in parallel to the DC distributionunit through the copper busbar.
� Load and battery loop are configured with shunt; the shuntsserve to detect total load current and battery current. In addi-tion, on each load branch and each battery branch, a fuse or airswitch is configured for over-current protection and short-cir-cuit protection.
� The DC distribution unit has the LLVD function. If the batterydischarging time is excessively long and no emergency proce-dures has been taken, the system will disconnect the less-im-portant loads if the battery voltage falls to a limit; the systemwill disconnect all the loads if the battery voltage falls to a lowerlimit to prevent batteries from damage caused by over-dis-charge.
� The DC lightning arrester provides DC lightning protectionfunction.
Operating Principles ofRectifierThe operating principles of the ZXD2400 (V4.3) rectifier are shownin Figure 132.
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FIGURE 132 RECTIFIER OPERATING PRINCIPLES
The principles are described as follows:
� The ZXD2400 (V4.3) rectifier operates from 110 V AC/120 VAC/127 V AC or 220 V AC source.
� The input EMI, soft start, surge/lightning protection rectifi-cation and input surge current limiting circuits feature smallstartup surge current and good EMC. After the input AC is rec-tified, it will directly enter the front PFC circuit.
� The main circuit of the front PFC is the BOOST circuit. The PFCcircuit uses the averaged current mode/peak current mode tocontrol the input power factor (the input power factor becomesapproximately equal to 1). The harmonic current is less than5%. The PFC circuit also adjusts the input voltage to a stable410 V DC voltage to be provided for the back DC-DC conversioncircuit.
� The back DC-DC conversion circuit adopts the phase-shift full-bridge power inversion technology. The circuit converts 410 VDC to 48 V DC.
� The PFC circuit and the DC-DC conversion circuit have reliablecontrol and protection function.
� The control interface transmits the working status and alarmdata of the rectifier to the monitoring system. The monitoringsystem implements the three tele-functions through the con-trol interface. For example, adjusting the output voltage of therectifier and turn it on/off through the control interface.
� Status display is composed of several indicators that indicatethe working status of the rectifier.
� The auxiliary power supply provides power for the internal con-trol circuit and the fan of the rectifier.
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Appendix A Operating Principles and Functions
Functions of the MonitoringUnit
Short Description The monitoring unit detects the operation status of system andautomatically controls the operation of the whole system. Inaddition, it transmits the data to the remote monitor PC or remotemonitor center through the communication interface, realizingunattended maintenance.
The functions of the monitoring unit are described as follows:
� Data collection and processing
Monitored Object Data Collection and Processing
AC distribution unit AC voltage, AC current, AC input air switchstatus and class C surge arrester status
DC distribution unit
DC output voltage, battery voltage, batterycurrent, total load current, status of load out-put breaker, status of DC contactors and DCarrester status
Rectifier modulePower-on/off control of rectifier module, re-charge status control and in-position and faultdetection
� Man-machine interactive interface
The LCD and keys enable the user to set the system runningparameters and query the related information.
� Communication
The monitoring unit provides multiple communication inter-faces, such as RS232/RS485/modem. Centralized monitoringcan be implemented through modem or in other ways.
� Alarm reporting management and protection
The monitoring unit processes real-time data, as set by users.If a serious fault occurs, the unit generates an alarm and re-ports it to the background PC automatically; in addition, theunit records and stores fault information. The user can alsohave access to alarms through the monitoring unit directly.The details are shown below:
Item Description
Alarm settingThe user can set the upper and lower limitsof the system parameters accordingly.
Alarm management The system has reliable and real-time alarmmanagement function.
In case of any alarm, the monitoring unit gen-erates audible and visual signal to inform themaintenance personnel and reports the alarminformation to a background PC through itscommunication interface.
Alarm mode
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Item Description
Press any key to mute the alarm sound; thenthe ALM indicator keeps glowing until thefault is eliminated.
� Battery management function
� Battery charging management
The system has three battery charging modes:
S/N Description
1The system periodically recharges the batteries accord-ing to the period set by the user.
2
When the mains supply recovers after failure and thebattery discharges its capacity to a certain degree, whichcan be set by the user, the system automatically re-charges the batteries.
3
When the batteries are of full capacity, the system keepscharging them; the system provides constant floatingcharging voltage and low floating charge current to thebatteries.
� Battery protection function
When the mains supply is cut off, the battery supplies thepower. The corresponding alarm is generated when thevoltage of the battery falls to a certain degree (settable).
The system has LLVD function. When the battery voltagefalls to a limit, the system shuts down the less-importantloads; after that, when the battery voltage falls to a lowerlimit, the system shuts down all the loads. LLVD functionis to ensure that important loads work longer and protectbatteries from over-discharge.
In addition, the maximum charging current can be set toprotect batteries. The maximum charging current is equalto the limited battery current multiplied by the battery ca-pacity. Therefore, to set limited battery current is to limitmaximum charging current.
� Control
The monitoring unit of the system and the monitoring softwareon the background PC enable the user:
� To control the rectifier power-on, power-off, equalizedcharging and float charging.
� To adjust the rectifier output voltage within the range from-42 V to -58 V.
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A p p e n d i x B
Monitor NetworkingMode
ZXDU68 T301 system supports multiple networking modes, withthe details mentioned below.
� Serial port mode:
The DC power system provides the RS 232/ RS 485 serial port.In this mode, the DC power system is connected to a back-ground PC through the serial port (see Figure 133). The back-ground monitoring software installed in the PC is used to real-ize the local centralized monitoring. The mode is the simplest,but the distance between the system and the background PCshould be less than or equal to 15 m.
FIGURE 133 NETWORKING IN SERIAL PORT MODE
� MODEM mode and other modes:
ZXDU68 T301 system can be connected to a remote PC throughMODEM, telephone line, or transmission channel (like the auxil-iary channel of microwave equipment and optical transmissionequipment) and auxiliary communication equipment. For de-tails, refer to the ZTE Background Power Supply Monitor Soft-ware (V3.x) User’s Manual.
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A p p e n d i x C
Parameter List
System ParameterList
S/N Parameter Name DefaultValue
Value Range
1 Bat.1 Cap. (Ah) 300 0 ~ 9990
2 Bat.2 Cap. (Ah) 0 0 ~ 9990
3 Bat.3 Cap. (Ah) 0 0 ~ 9990
4 Bat.4 Cap. (Ah) 0 0 ~ 9990
5 COM1 Bauds (bps) 9600 1200/2400/4800/9600
6 COM2 Bauds (bps) 9600 1200/2400/4800/9600
7 COM3 Bauds (bps) 9600 1200/2400/4800/9600
8 Device No. 1 1 ~ 254
9 Password 0000 0000 ~ 9999
10 Language Chinese Chinese/English
11 Buzz Switch On On/Off
12 AuxSwitch Set No Yes/No
13 Auto Alarm Enable Enable/Disable
14 SMR Pulled Alm Enable Enable/Disable
15 Current Date - 1970-1-1 ~ 2099-12-31
16 Current Time - 00:00:00 ~ 23:59:59
17 *Fuse ValveVol. (V) 0.5 0.1 ~ 0.8
18 *Load1 Branches 7 7
19 *Load2 Branches 8 8
20 *Battery Shunt (A) 300 120/150/200/300/500/600/750
21 *Load Shunt (A) 300 120/150/200/300/500/600/750
– Remarks: The parameters marked with * are hiddenparameters.
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Battery ParameterList
S/N Parameter Name DefaultValue
Value Range
1 Work Mode Safe Mode Safe Mode/SaveMode/Free Mode
2 Float Vol. (V) 53.5 42 ~ 58
3 Equal Vol. (V) 56.4 42 ~ 58
4 Test Vol. (V) 46 42 ~ 50
5 Cur. Limited (C) 0.125 0.01 ~ 0.4
6 Equal Func. Enable Enable/Disable
7 Equal Period (Day) 90 15 ~ 365
8 BatVol Min. (V) 47 39 ~ 52
9 1-Shut Vol. (V) 45 38 ~ 49
10 2-Shut Vol. (V) 44 38 ~ 49
11 Auto Test Disable Enable/Disable
12 Test Period (Day) 30 15 ~ 365
13 Test StartTime 10:00 00:00 ~ 23:00
14 *Temp.Coeff. (mV) 3 0 ~ 8
15 *Equ.Max Hours (H) 10 0 ~ 48
16 *Equ.Min Hours (H) 3 0 ~ 48
17 *Equ.LastHours (H) 3 0 ~ 10
18 *Equal Cap.Min. (C) 0.85 0.5 ~ 1
19 *Equal Vol.Min. (V) 48 46 ~ 50
20 *Eq.EndCur.Coef. 0.015 0.001 ~ 0.05
21 *Cur.Temp.Co. 0 0 ~ 0.01
22 *Test Max.Hours (H) 8 0 ~ 24
23 *LLVD-1 Ctrl Enable Enable/Disable
24 *LLVD-2 Ctrl Enable Enable/Disable
25 *Bat.Temp.Max. (℃) 40 30 ~ 60
26 *Bat.Temp.Min. (℃) -5 -30 ~ +20
27 *Bat.Disch.Valve (A) -10 -50 ~ -4
28 *Volt.Dev. (V) -0.5 -2 ~ -0.5
29 *Rotate Period (Day) 7 5 ~ 30
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Appendix C Parameter List
S/N Parameter Name DefaultValue
Value Range
30 *Bat.Det.Time (M) 2 1 ~ 5
31 *Bat.Det.Period (Day) 30 20 ~ 90
32 *NonSave Delay (H) 24 0 ~ 99
33 *Smr Limit Num. 2 1 ~ 2
34 *Temp.Volt.Max. (V) 57.0 50.0 ~ 58.0
35 *Temp.Volt.Min. (V) 50.0 50.0 ~ 58.0
– Remarks: The parameters markedwith * are hidden parameters.
Alarm ParameterList
S/N Parameter Name DefaultValue
Value Range
1 Set Alarm Attr. - -
2 *AC Vol.Max. (V) 286 240 ~ 300
3 *AC Vol.Min. (V) 154 80 ~ 200
4 *DC Vol.Max. (V) 58 53 ~ 59
5 *DC Vol.Min. (V) 48 44 ~ 55
6 *Env.Temp.Max. (℃) 45 30 ~ 60
7 *Env.Temp.Min. (℃) -5 -30 ~ +20
8 *Env.Hum.Max. (%) 90 70 ~ 100
9 *Env.Hum.Min. (%) 20 10 ~ 50
– Remarks: The parameters markedwith * are hidden parameters.
AdjustmentParameter List
S/N Parameter Name DefaultValue
Value Range
1 *AC Cur.Slope 1 0.1 ~ 10
2 *DC Vol.Zero (V) 0 -1 ~ 1
3 *DC Cur.Zero (A) 0 -50 ~ 50
4 *DC Cur.Slope 1 0 ~ 10
5 *Bat.1 Vol.Zero (V) 0 -1 ~ 1
6 *Bat.2 Vol.Zero (V) 0 -1 ~ 1
7 *Bat.3 Vol.Zero (V) 0 -1 ~ 1
8 *Bat.4 Vol.Zero (V) 0 -1 ~ 1
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S/N Parameter Name DefaultValue
Value Range
9 *Bat.1 Cur.Zero (A) 0 -50 ~ 50
10 *Bat.2 Cur.Zero (A) 0 -50 ~ 50
11 *Bat.3 Cur.Zero (A) 0 -50 ~ 50
12 *Bat.4 Cur.Zero (A) 0 -50 ~ 50
13 *Bat.1 Cur.Slope 1 0 ~ 10
14 *Bat.2 Cur.Slope 1 0 ~ 10
15 *Bat.3 Cur.Slope 1 0 ~ 10
16 *Bat.4 Cur.Slope 1 0 ~ 10
17 *Bat.1 Temp.Zero (℃) 0 -10 ~ 10
18 *Bat.2 Temp.Zero (℃) 0 -10 ~ 10
19 *Bat.3 Temp.Zero (℃) 0 -10 ~ 10
20 *Bat.4 Temp.Zero (℃) 0 -10 ~ 10
– Remarks: The parameters markedwith * are hidden parameters.
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A p p e n d i x D
Alarm List
TABLE 46 ALARM LIST
S/N Alarm Type Default Level Default Relay Description
1 Total Alarm Ignore A1 An alarm occurs.
2 AC Aux SW Off Minor alarm A2 The AC auxiliary switch isOFF.
3 AC Main SW Off Major alarm A2 The AC input air switch isOFF.
4 AC Power Off Major alarm A2 The mains supply is cut offand there is no standby ACinput available.
5 ACArrester Brk. Minor alarm A2 The surge arrester is faulty.
6 AC Under-Vol Minor alarm A2 The AC input voltage islower than AC Vol.Min.
7 AC Over-Vol Minor alarm A2 The AC input voltage ishigher than AC Vol.Max.
8 AC Phase Lost Minor alarm A2 AC input phase lost.
9 AC Current Over Minor alarm A2 The AC input current ishigher than the pre-setmaximum AC current.
10 SMR Alarm Minor alarm A3 The rectifier n is faulty (nranges from 1 to 16). Ifa rectifier is faulty, it is aminor alarm; if two or overtwo rectifiers are faulty atthe same time, it is a majoralarm.
11 SMR Abnormal Minor alarm A3 The rectifier is opened butwithout output.
12 DC Under-Vol Minor alarm A4 The DC output voltage islower than DC Vol.Min.
13 DC Over-Vol Minor alarm A4 The DC output voltage ishigher than DC Vol.Max.
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S/N Alarm Type Default Level Default Relay Description
14 DC Loop Break Minor alarm A6 No. n DC output branch isfaulty.
15 Bat Loop Break Minor alarm A6 The loop (or air switch) ofbattery n is faulty (n rangesfrom 1 to 4)
16 Bat Under-Vol Major alarm A4 The battery voltage is lowerthan Bat. Vol Min.
17 Bat Over-Temp Minor alarm A4 The temperature of batteryn is higher than Bat.Temp.Max.
18 1st Shut-down Major alarm A5 When the battery voltageis lower than 1-Shut Vol.,the less-important loads areshut down.
19 2nd Shut-down Major alarm A5 When the battery voltage islower than 2-Shut Vol., allthe loads are shut down.
20 DCArrester Brk. Minor alarm A2 The DC arrester is faulty.
21 DCBreaker Alarm Minor alarm 0 The DC contactor of the DCloop n is faulty (n rangesfrom 1 to 2)
22 Battery Fault Major alarm 0 The battery cannot supplypower online.
23 Bat Under-Temp Minor alarm 0 The temperature of groupN battery is less than BatUnder-Temp.
24 Bat.Temp.Void Minor alarm 0 The system is configuredwith batteries, but batterytemperature sensor is notproperly connected.
25 Bat.Discharge Minor alarm 0 Battery dischargecurrent is greater thanBat.Discharge.
26 Env Under-Temp Minor alarm A7 Environment temperatureis lower than EnvUnder-Temp.
27 Env Over-Temp Minor alarm A7 The environmenttemperature is higherthan Env. Temp.Max.
28 Env Under-Hum Minor alarm A7 The environment humidity islower than Env. Hum.Min.
29 Env Over-Hum Minor alarm A7 The environment humidityis higher than Env.Hum.Max.
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Appendix D Alarm List
S/N Alarm Type Default Level Default Relay Description
30 Smoke Alarm Minor alarm A7 The sensor detects thesmoke.
31 Flood Alarm Minor alarm A7 The sensor detects theentrance of water.
32 Intrusion Alarm Minor alarm A7 The sensor detects theintrusion of something.
33 Door Magnet Alm Minor alarm A7 The door with door magnetswitch is opened.
34 Glass Broken Minor alarm A7 The sensor detects brokenglasses.
35 Env.Temp.Void Ignore A7 No valid batterytemperature sensor isconfigured.
36 Start GEN Ignore A8 The generator has beenstarted.
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A p p e n d i x E
Explanations ofCommon Terms
Table of ContentsAC Distribution Part ......................................................... 169DC Distribution Part ......................................................... 170Rectifier Part................................................................... 170Battery Part .................................................................... 171Communication Part......................................................... 172
AC Distribution PartThe AC distribution part is described in Table 47.
TABLE 47 AC DISTRIBUTION PART
Term Description
Mains Primary AC input source for the power supplyequipment.
GeneratorSecondary AC input source for the power supplyequipment. Diesel generator or gasoline gener-ator are the most commonly used.
3-phase 5-wiresystem
The connection mode of AC power supply, includ-ing phase wires of 3 AC phases (U, V and W),neutral wire (N) and ground wire (PE).
Single-phase 3-wiresystem
The connection mode of AC power supply whenthe user has only signal phase AC power, includ-ing phase wire (live wire, L), neutral wire (N) andground wire (PE).
Air switch
Also called automatic air switch or circuit breaker.It is a kind of circuit protection facility, capa-ble of automatic disconnection upon overload orshort-circuit. The air switches used in the com-bined power system involve AC power input end,lightning arrester air switch, AC standby output,rectifier AC input and load output.
AC contactor A kind of over/under-voltage protection device ofthe AC circuit, used for the AC input power.
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Term Description
AC transducer Used for detecting the AC input voltage and cur-rent.
AC lightningarrester
Generally used in AC level C lightning protec-tion. Its purpose is to discharge the high cur-rent caused by lightning or surge current inputby power supply network. The lightning arrest-ers used in ZTE DC power system are of OBO andPHOENIX brands. The OBO lightning arrester hasa small mechanical window, which is normallygreen when the arrester is normal and turns redif it is damaged. The window of the PHOENIXlightning arrester has no color in normal case andred in damaged case. It is required to regularlycheck the lightning arrester and immediately re-place it if its window turns red.
DC Distribution PartThe DC distribution part is described in Table 48.
TABLE 48 DC DISTRIBUTION PART
Term Description
FuseFuse protector. When over-load or short-circuitoccurs on the line, the fuse will break, and thusdisconnecting the circuit.
DC contactorUsed for under-voltage protection of the battery,emergency lighting control and load low voltagedisconnection function.
First Load LowVoltage Disconnect(LLVD1)
When the AC power input fails, the batterypowers the load. The discharging of the batteryleads to a gradual decrease of the output volt-age. When the voltage falls to the threshold ofthe LLVD1, the system will automatically shutdown less important load. Due to reduced load,the battery can power the important load for alonger time.
Second Load lowVoltge Disconnect(LLVD2)
When the voltage falls to the threshold of theLLVD2, the system will automatically cut off theentire load. After all the load is cut off, the cease-less discharging of the battery is terminated, andthus preventing the battery from damage due toexcessive discharging.
Load Equipment powered by the combined power sup-ply.
Rectifier PartThe rectifier part is described in Table 49.
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Appendix E Explanations of Common Terms
TABLE 49 RECTIFIER PART
Rectifier
A rectifier converts AC power into DC power. Inthe DC power system, multiple rectifiers work inparallel connection mode, with the total outputcapacity equal to the sum of the output currentof every rectifier.
Current limiting
An over-load protection function. When the rec-tifier current exceeds the pre-set value, the out-put current will be limited. When input voltage ofthe rectifier is too low, the current limiting pro-tection will take effect as well.
Battery PartThe battery part is described in Table 50.
TABLE 50 BATTERY PART
Term Description
Battery
The battery used in the DC power supply systemis usually sealed lead-acid maintenance-free bat-tery. This kind of battery is almost free of mois-ture loss in the recharging/discharging, so watersupplement is unnecessary and erosive gas canbe avoided, and thus requiring no maintenance.The standard battery voltage can be 2 V, 4 V, 6V, or 12 V (mostly used in DC power system).24 pieces of batteries are connected in series toform a 48 V battery group.
Floating charge
Recharging mode of the battery. When the bat-tery is full, the charger will not stop recharging,instead, it still provides constant floating chargevoltage and small floating charge current for thebattery. Once the charger stops recharging, thebattery will naturally discharge power. Thus, thefloat charging mode is used to balance this natu-ral discharging. Usually, the float charging volt-age is 53.5 V.
Equalized charge
Recharging the battery in the mode of specifiedcurrent and specified time, featuring a short re-charging time. This recharging mode is oftenused when the professional maintenance person-nel maintain the battery, facilitating the activa-tion of the chemical features of the battery. Usu-ally, the equalized charge voltage is 56.4 V.
Battery capacity
Usually represented with AH. It is an importantbasis for recharging/discharging management ofthe battery. Thus, it is required to properly setthe battery capacity of the system upon commis-sioning.
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Term Description
Battery temperaturecompensationcoefficient
The leakage current of the battery is sensitive totemperature. To suppress leakage current, tem-perature compensation is applied to the batteryvoltage. Usually, the compensation level is 25°C.When the battery temperature increases by 1°C,the voltage of each battery decreases by 3 mV;when the battery temperature decreases by 1°C,the voltage of each battery increases by 3 mV.
Battery temperaturesensor
Used for detecting the battery group tempera-ture.
Discharge Process during which the battery supplies powerto the load.
Over dischargeThe case in which the battery voltage is equal toor even lower than the nominal lower limit. Theexcessive discharging heavily harms the battery.
Communication PartThe communication part is described in Table 51.
TABLE 51 COMMUNICATION PART
Term Description
Dry contactPassive contact, used for signal transfer anddivided into normally-close contact and nor-mally-open contact.
RS232
A kind of serial communication physical inter-face standard, commonly used for short-distancetransmission. It supports 3-wire transmission.Signals are divided into transmitting, receivingand signal ground.
RS485
Differential mode serial asynchronous transmis-sion data interface. It can implement multi-sta-tion interconnection and remote transmission.Usually, there are two data wires, supportingover 1000-m transmission distance.
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A p p e n d i x F
Term List
TABLE 52 LIST OF TERMS
Abbreviation Full Name
ALM Alarm
CL Current Limit
EMB Environment Monitor Board
EMC Electromagnetic Compatibility
LCD Liquid Crystal Display
LED Light Emitting Diode
LLVD Load Low Voltage Disconnect
MODEM MOdulator-DEModulator
MPB MODEM Power Board
NC Normally Closed
NO Normally Open
PE Protection Earth
PFC Power Factor Correction
PSU Power Supervision Unit
PWR Power
RLY Relay
RSB Rectifier Signal Board
SCB Signal Conversion Board
SDCB Shut Down Control Board
SMR Switching Mode Rectifier
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A p p e n d i x G
Electrical ConnectionDiagram
Figure 134 shows the electrical connection of ZXDU68 T301 sys-tem.
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FIGURE 134 ELECTRICAL CONNECTION DIAGRAM
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Appendix G Electrical Connection Diagram
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Figures
Figure 1 ZXDU68 T301 SYSTEM APPEARANCE......................... 5
Figure 2 ZXDU68 T301 Cabinet Appearance ..........................16
Figure 3 Top Cap Appearance ..............................................17
Figure 4 Cabinet Structure..................................................18
Figure 5 Installation Slots Configuration................................19
Figure 6 AC Distribution Unit Structure (Single Air Switch) ......20
Figure 7 AC Distribution Unit Structure (Double Air Switch) .....20
Figure 8 DC Distribution Unit Structure.................................22
Figure 9 DC Surge Arrester Location ....................................25
Figure 10 DC Surge Arrester Indicators ................................25
Figure 11 Rectifier Components ...........................................26
Figure 12 Rectifier Indicators ..............................................27
Figure 13 Input/Output Integrated Socket.............................28
Figure 14 Monitoring Unit Components .................................30
Figure 15 Monitoring Unit Indicators.....................................31
Figure 16 Boards Location ..................................................32
Figure 17 SIB Board...........................................................33
Figure 18 MPB Board..........................................................37
Figure 19 IP Board Interfaces..............................................38
Figure 20 Location of Fuses and Air Switches.........................41
Figure 21 LLVD Control Device ............................................43
Figure 22 Front Panel of the Monitoring Unit..........................46
Figure 23 Menu Hierarchy ...................................................47
Figure 24 Main Menu Interface ............................................48
Figure 25 Relationship Between Msg and Submenus...............49
Figure 26 Flow of Querying Real-Time Information .................50
Figure 27 Real-Time Alarm Interface Description....................54
Figure 28 Querying History Alarm Records Flow .....................55
Figure 29 History Alarm Interface Description........................56
Figure 30 Operation Log Interface Description .......................57
Figure 31 Peak Records Interface Description ........................60
Figure 32 Flow of Querying Maintenance Records ...................61
Figure 33 Flow of Entering Ctrl ............................................62
Figure 34 Flow of Modifying Parameter Value.........................64
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Figure 35 Bat1 Cap(Ah) Interface ........................................66
Figure 36 COM1 Bauds Interface..........................................67
Figure 37 Device No. Interface............................................67
Figure 38 Password Interface ..............................................68
Figure 39 Language Interface..............................................68
Figure 40 Buzz Switch Interface ..........................................69
Figure 41 Auto Alarm Interface............................................69
Figure 42 AuxSwitch Set Interface .......................................69
Figure 43 SMR Pulled Alm Interface .....................................70
Figure 44 Current Date Interface .........................................70
Figure 45 Current Time Interface.........................................71
Figure 46 Fuse ValveVol. Interface.......................................71
Figure 47 Load1 Branches Interface .....................................71
Figure 48 Battery Shunt Interface........................................72
Figure 49 Load Shunt Interface ...........................................72
Figure 50 Float Vol. Interface..............................................73
Figure 51 Equal Vol. Interface .............................................73
Figure 52 Cur. Limited Interface ..........................................74
Figure 53 Equal Func. Interface...........................................74
Figure 54 Equal Period Interface ..........................................75
Figure 55 Equ.Min Hours Interface .......................................75
Figure 56 Equ.Max Hours Interface ......................................76
Figure 57 Equ.LastHours Interface .......................................76
Figure 58 Equal Cap.Min. Interface ......................................77
Figure 59 Equal Vol.Min. Interface .......................................77
Figure 60 Eq.EndCur.Coef. Interface.....................................78
Figure 61 BatVol Min. Interface ...........................................78
Figure 62 1-Shut Vol. Interface ...........................................79
Figure 63 2-Shut Vol. Interface ...........................................79
Figure 64 LLVD-1 Ctrl Interface ...........................................80
Figure 65 LLVD-2 Ctrl Interface ...........................................80
Figure 66 Auto Test Interface ..............................................81
Figure 67 Test Period Interface ............................................81
Figure 68 Test StartTime Interface .......................................82
Figure 69 Test Vol. Interface ...............................................82
Figure 70 Test Max.Hours Interface......................................83
Figure 71 Bat.Det.Time Interface.........................................83
Figure 72 Bat.Det.Period Interface .......................................83
Figure 73 Temp.Coeff. Interface ..........................................84
Figure 74 Cur.Temp.Co. Interface ........................................85
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Figures
Figure 75 Temp.Volt.Max. Interface .....................................86
Figure 76 Temp.Volt.Min. Interface ......................................86
Figure 77 Bat.Temp.Max. Interface ......................................86
Figure 78 Bat.Temp.Min. Interface .......................................87
Figure 79 Bat.Disch.Valve Interface......................................87
Figure 80 Volt.Dev. Interface ..............................................88
Figure 81 Selecting Work Mode Flow ....................................91
Figure 82 Smr Limit Num. Interface.....................................92
Figure 83 Rotate Period Interface.........................................93
Figure 84 NonSave Delay Interface ......................................93
Figure 85 Setting Auto Save Flow ........................................94
Figure 86 Setting Temp NonSave Mode Flow..........................96
Figure 87 Setting Perm NonSave Mode Flow..........................97
Figure 88 Setting Manual Detect Flow...................................99
Figure 89 Flow of All Ctrl .................................................. 103
Figure 90 Single Ctrl Flow................................................. 104
Figure 91 AC Cur.Slope Interface ....................................... 106
Figure 92 DC Vol.Zero Interface......................................... 106
Figure 93 DC Cur.Zero Interface ........................................ 106
Figure 94 DC Cur.Slope Interface ....................................... 107
Figure 95 Bat.1 Vol.Zero Interface ..................................... 107
Figure 96 Bat.1 Cur.Zero Interface ..................................... 108
Figure 97 Bat.1 Cur.Slope Interface.................................... 108
Figure 98 Bat.1 Temp.Zero Interface .................................. 109
Figure 99 Flow of Setting Alarm Attributes .......................... 110
Figure 100 AC Vol.Max. Interface ...................................... 112
Figure 101 AC Vol.Min. Interface ....................................... 112
Figure 102 DC Vol.Max. Interface ...................................... 113
Figure 103 DC Vol.Min. Interface ....................................... 113
Figure 104 Env.Temp.Max. Interface .................................. 114
Figure 105 Env.Temp.Min. Interface ................................... 114
Figure 106 Env.Hum.Max. Interface ................................... 115
Figure 107 Env.Hum.Min. Interface.................................... 115
Figure 108 Flow of Turning on SMR Through Software........... 116
Figure 109 Flow of Turning off SMR Through Software .......... 118
Figure 110 Setting Float FLow ........................................... 120
Figure 111 Setting Equalized Charge FLow .......................... 121
Figure 112 Setting Test FLow ............................................ 122
Figure 113 Delete Records Flow......................................... 124
Figure 114 Flow of loading running parameters.................... 125
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Figure 115 Flow of loading all parameters ........................... 126
Figure 116 Download App Flow.......................................... 128
Figure 117 Download Font Flow ......................................... 129
Figure 118 Shortcut Menu Interface ................................... 130
Figure 119 “Float Vol.” Interface ........................................ 130
Figure 120 Help Message For “Float Vol.” ............................ 131
Figure 121 Shortcut Menu With “Debug Msg.” Selected ......... 131
Figure 122 “Debug Msg.” Interface..................................... 131
Figure 123 Shortcut Menu With “Screen Save” Selected........ 132
Figure 124 System Information Interface............................ 132
Figure 125 Description of System Information Interface........ 132
Figure 126 Rectifier Installation ......................................... 141
Figure 127 Rectifier Uninstallation...................................... 142
Figure 128 Top Cap Structure............................................ 144
Figure 129 Operating Principles of the ZXDU68 T301............ 153
Figure 130 Operating Principles of AC Distribution Unit ........ 154
Figure 131 DC Distribution Unit Operating Principles............. 155
Figure 132 Rectifier Operating Principles ............................. 156
Figure 133 Networking in serial port mode .......................... 159
Figure 134 Electrical Connection Diagram ........................... 176
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Tables
Table 1 Safety Signs ........................................................... 1
Table 2 Safety Precautions ................................................... 2
Table 3 ZXDU68 T301 System Configuration........................... 6
Table 14 ZXDU68 T301 System Dimensions and Weight ..........17
Table 15 Front panel Indicators Description ...........................18
Table 16 AC Distribution Unit Components Description ............21
Table 17 DC Distribution Unit Components Description............24
Table 18 Components Description ........................................27
Table 19 Indicators Description............................................28
Table 20 Pins Description ....................................................28
Table 21 Monitoring Unit Components Description ..................30
Table 22 Monitoring Unit Indicators Description......................31
Table 23 SIB Board Interfaces Description.............................33
Table 24 MPB Board Interfaces Description............................37
Table 25 Interfaces Description............................................39
Table 26 IP Board-DIP Switches Description ..........................39
Table 27 IP Board-DIP Switch Baud Rate...............................40
Table 28 RS232 Port-DIP Switch Configuration.......................40
Table 29 Switches Functions................................................43
Table 30 Keys of the Monitoring Unit ....................................46
Table 31 Description of the Main Menu..................................48
Table 32 Description of Real-Time Information Interfaces ........51
Table 33 Description of Discharge Record Interface ................58
Table 34 Description of Peak Record Interfaces ......................60
Table 35 Description of SIB Board Output Signals Connector .. 101
Table 36 Emergency Handling of AC Distribution Unit............ 134
Table 37 Emergency Handling of DC Distribution Unit ........... 134
Table 38 Emergency Handling of Monitoring Unit.................. 135
Table 39 Emergency Handling of Rectifier............................ 135
Table 40 Routine Maintenance Items .................................. 136
Table 41 Monthly Maintenance Items.................................. 137
Table 42 Monitoring Unit Troubleshooting ............................ 150
Table 46 Alarm List .......................................................... 165
Table 47 AC Distribution Part............................................. 169
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Table 48 DC Distribution Part ............................................ 170
Table 49 Rectifier Part ...................................................... 171
Table 50 Battery Part ....................................................... 171
Table 51 Communication Part ............................................ 172
Table 52 List of terms....................................................... 173
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