Emerson 48330 user manual Battery

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In thunderstorms, a strong electromagnetic field will be generated in the air. Therefore the equipment should be well-earthed in time to avoid damage by lightning strikes.

4. ESD

The static electricity generated by the human body will damage the static sensitive elements on PCBs, such as large-scale ICs. Before touching any plug-in board, PCB or IC chip, ESD wrist strap must be worn to prevent body static from damaging the sensitive elements. The other end of the ESD wrist strap must be well earthed.

5 Short-circuit

During operation, never short the positive and negative terminals of the MFU of the system or the non-earthing terminal and the earth. The power system is a constant voltage DC power equipment, short circuit will result in equipment burning and endanger human safety.

Check carefully the polarity of the cable and connection terminal when performing DC live operations.

Never wear a watch, bracelet, ring, or other conductive objects during operation.

Insulated tools must be used.

Battery

Before any operation on battery, read very carefully the safety precautions for battery transportation and the correct battery connection method.

Non-standard operation on the battery will cause danger. In operation, precautions should be taken to prevent battery short circuit and overflow of electrolyte. The overflow of electrolyte will pose potential threat to the equipment, it will erode the metal objects and PCBs, thus causing equipment damage and short circuit of PCBs.

Before any operation on battery, pay attention to the following points:

Remove the watch, bracelet, bangle, ring, and other metal objects on the wrist.

Use special insulated tools.

Wear an eye protection device, and take preventive measures.

Wear rubber gloves and apron to guard against electrolyte overflow.

In battery transportation, the electrode of the battery should always be kept facing upward. Never put the battery upside down or slanted.

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Contents 31011084 Version V1.0 Revision date May 20Electrical Safety Safety PrecautionsBattery Others Special Safe Requirements of This EquipmentContents Routine Maintenance TestingTemperature Compensation Coefficient Parameters System Settings Alarm SettingsAppendix Daily Inspection ReplacementChanging audible/visual alarm and alarm call back plan 15 Value description of AC settingsFunctions of SCU keys Figure List Page Introduction FeaturesSystem Description AbbreviationOutline of the DC Power System is illustrated in Figure System ConfigurationConfigurations of Actura Flex 48330 Power System Configuration Cabinet dimension % 0.6 % 0.6 m % 0.6 % 0.4 mSCU BCU Components Rectifier ShelfOutline Manufacture type Wmm ×Dmm ×Hmm Dimension of Rectifier Shelf are given in TableDimensions of rectifier shelf Connector boardRectifier Dimensions3 SCU Function of indicatorsDimension H % W % D132mm % 85mm % 287mm Weight 0.76kg Multi-Communication modeFunctions fulfilled by SCU and MC Alarm category settings for dry contact outputMulti-Function Unit MFU Password protection for important operationsAuthority and default password Level Authority Default passwordComponent Description Battery Connection Unit BCUConfiguration of MFU Alarm output0m % 0.6m % 0.4m cabinet BCU configurationSystem Cabinet 0m % 0.6m % 0.6m cabinetEnvironmental conditions in power room InstallationInstallation Preparation Power SupplyTools & Material Site SurveyUnpacking Drill reserve holes Installation ProceduresCabinet Installation Installation on the floorInstalling expansive pipe AC input modes External Electrical Connection InterfaceConnection Of Input Cables Connection requirementsDifferent cable connection modes Connection of input terminalsConnection of single-phase AC power input Configuration number of load MCBs and battery MCBs Connection Of Load CablesBusbar type Max. load number Connection Of Communication Cables 12 Connector board in rectifier shelf13 Layout of connector board S6415X2 Layout Of Connector Board S6415X2Interface Definition Of Connector Board S6415X2 Interface definition of connector board S6415X2Connector Pin Signal name Mark number Logic relation Connection With Modem Connection Of Temperature Sensor CablesConnector Pin Signal name Pgng POWER+ PowerConnection With Dry Contacts Battery Installation And CablingBattery Installation Connecting methodStandard configuration Battery Cable Connection16 Connection of battery cables 18 Negative battery cables connection in BCU Non-standard configurationDC/Parallel connections Parallel Connection Of CabinetsChecking Before Startup Check the DC Power System according to -1 before startupSystem checklist before startup StartupStartup Process Parameters ConfigurationTesting SCU TestingTesting MFU Testing RectifierBattery Breaker Test BCU TestLoad Breaker Test Functions of SCU keys Functions of LED indicatorsOperating SCU Operation PanelFirst system information page appears Operation ProceduresFirst Page Of System Information Querying System StatusOther System Information Screen Battery informationAC information BC prompt and temperature informationQuerying Rectifier Status Querying Active Alarm Querying Alarms And Setting Alarm PlansQuery Alarm History Alarm History Alarm type table Alarm Type TableBlvd LlvdChapter Operating SCU Serial Alarm Description Default Changing audible/visual alarm and alarm call back plan Changing Audible/Visual Alarm And Alarm Call Back PlanChanging Alarm Types Of Dry Contacts Setting Alarm Type For Dry ContactsAlarm type Remark Optional alarm typesSet the Alarm Names Through PLC Function Alarm Remark Description Logic matrix used for configuring 8 dry contactsExample of PLC setting PLC SN and AlarmPLC Alarm Remark DescriptionLlvd Blvd MaintenanceOperating SCU Setting System Parameters Parameter Setting MethodPress ESC to return to the menu of higher level Level Authority Password levels and authoritiesFirst page of the Batt. Selection is shown below Batt. SelectionLVD Parameter Description There are 6 related pages, as shown below Charging Management ParametersOperating SCU Parameter Range Default Value description BC/FC switchover diagram is shown below12 Charging management parameter value description There are 7 related pages, as shown below Battery Test Parameters13 Value description of the battery test parameters Schematic diagram of the test function is shown belowValue description of the parameters is listed below First page of the setting interface is shown below Temperature Compensation Coefficient ParametersConfiguration interface is shown below AC SettingsThere are three related pages, as shown below DC Setting17 Value description of rectifier settings Rect SettingsSystem Settings There will be a prompt when resetting the system EEM-M 18 Value description of system settings48V/50A/SET/NONE 48V/30A/SET/NONE Model description is shown below19 Relationship between system model and system type Alarm SettingsPower system model System type First page of the setting interface is show below20 Value description of alarm settings Maintenance Of MFU Routine MaintenanceMaintenance Of Rectifier Maintenance Of SCUStorage And Supplementary Battery MaintenanceStore the battery in a cool dry place Cover PlatesReplacement Symptom Cause Suggestion TroubleshootingTroubleshooting Rectifier TroubleshootingDisastrous Accidents Mains FailureAppendix System Technical Parameters Parameter CategoryEMC Mtbf Appendix 2 Engineering Design Diagram Appendix 2 Engineering Design Diagram MCB Connector Connector specsAppendix 3.1 System Electric Schematic Diagram Appendix 3 System Circuit DiagramAppendix 3.2 System Wiring Diagram Appendix 3.3 MFU Electric Wiring Diagram Appendix 3.4 BCU Electric Wiring Diagram LVD Appendix GlossaryAbbreviation Full word Hvsd