Emerson 48330 user manual AC Settings, Configuration interface is shown below

Page 73

 

 

 

 

 

 

Chapter 5 Operating SCU

63

 

 

 

 

 

 

 

 

 

 

Parameter

 

Range

Default

Value description

 

 

 

When Temp 1

 

 

10 C ~

 

When the detected battery temperature is

 

 

 

or Temp 2 is

Over

 

50°C

higher than the “Over”, the monitoring

The “High”

 

 

100 C

 

set to “Battery

 

 

 

module will raise an alarm

must not be

 

 

 

 

 

 

Temp”

 

 

 

 

 

higher than

 

 

 

10°C ~

 

When the detected battery temperature is

 

 

High

 

50°C

higher than the “High”, the monitoring

the “Over”

 

 

 

100°C

 

 

 

 

 

module will raise an alarm

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Low

 

-40°C ~

0°C

The monitoring module will raise an alarm when the

 

 

 

 

10°C

detected battery temperature is lower than the “Low”

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

5.7.7AC Settings

1.The configuration interface is shown below:

OverVolt: 240V

LowVolt: 210V

UnderVolt: 200V

AC Input: None

Use “ ” or “ ” to select one page or one of the parameters, and “ ” or “ ” to select the parameter value. Press “ENT” to confirm and save.

2.The value description of the parameters is listed below: Table 5-15 Value description of AC settings

 

Parameter

 

Range

 

Default

 

Value description

 

 

OverVolt

 

50V ~

 

280V

 

The monitoring module will raise an alarm when

The “OverVolt” must be

 

 

300V

 

 

the AC input voltage is higher than the “OverVolt”

higher than the “LowVolt”.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

To avoid alrm disorder, it

 

 

 

50V ~

 

 

 

The monitoring module will raise an alarm when

 

LowVolt

 

 

170V

 

is suggested to use the

 

 

300V

 

 

the AC input voltage is lower than the “LowVolt”.

 

 

 

 

 

 

default values

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

The monitoring module will raise an alarm when

 

 

UnderVolt

 

50V ~

 

80V

 

the AC voltage of an operating route is lower than

The “UnderVolt” must be

 

 

300V

 

 

the “UnderVolt”, but there will be no alarm when

lower than the “LowVolt”.

 

 

 

 

 

 

the AC voltage of the standby route is lower than

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

the “UnderVolt”

 

 

 

 

 

 

 

 

 

 

 

 

 

3-phase,

 

Dependat

 

Set this parameter according to the actual situation. In a system with an AC

 

AC Input

 

Single

 

on

 

sampling board, you can only select “Single Phase” or “3-phase”; in a system

 

 

Phase,

 

system

 

 

 

 

 

 

without an AC sampling board, you can select only “None”.

 

 

 

None

 

type

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

ACTURA Flex 48330 Power System User Manual

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Contents 31011084 Version V1.0 Revision date May 20Electrical Safety Safety PrecautionsBattery Others Special Safe Requirements of This EquipmentContents Temperature Compensation Coefficient Parameters TestingSystem Settings Alarm Settings Routine MaintenanceAppendix Daily Inspection Replacement15 Value description of AC settings Changing audible/visual alarm and alarm call back planFunctions of SCU keys Figure List Page System Description FeaturesAbbreviation IntroductionOutline of the DC Power System is illustrated in Figure System ConfigurationConfiguration Cabinet dimension % 0.6 % 0.6 m % 0.6 % 0.4 m Configurations of Actura Flex 48330 Power SystemSCU BCU Rectifier Shelf ComponentsOutline Dimensions of rectifier shelf Dimension of Rectifier Shelf are given in TableConnector board Manufacture type Wmm ×Dmm ×HmmRectifier DimensionsDimension H % W % D132mm % 85mm % 287mm Weight 0.76kg Function of indicatorsMulti-Communication mode 3 SCUFunctions fulfilled by SCU and MC Alarm category settings for dry contact outputAuthority and default password Password protection for important operationsLevel Authority Default password Multi-Function Unit MFUConfiguration of MFU Battery Connection Unit BCUAlarm output Component DescriptionSystem Cabinet BCU configuration0m % 0.6m % 0.6m cabinet 0m % 0.6m % 0.4m cabinetInstallation Preparation InstallationPower Supply Environmental conditions in power roomTools & Material Site SurveyUnpacking Cabinet Installation Installation ProceduresInstallation on the floor Drill reserve holesInstalling expansive pipe Connection Of Input Cables External Electrical Connection InterfaceConnection requirements AC input modesDifferent cable connection modes Connection of input terminalsConnection of single-phase AC power input Connection Of Load Cables Configuration number of load MCBs and battery MCBsBusbar 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 Connector Pin Signal name Connection Of Temperature Sensor CablesPgng POWER+ Power Connection With ModemBattery Installation Battery Installation And CablingConnecting method Connection With Dry ContactsStandard configuration Battery Cable Connection16 Connection of battery cables 18 Negative battery cables connection in BCU Non-standard configurationDC/Parallel connections Parallel Connection Of CabinetsSystem checklist before startup Check the DC Power System according to -1 before startupStartup Checking Before StartupStartup Process Parameters ConfigurationTesting MFU TestingTesting Rectifier Testing SCUBCU Test Battery Breaker TestLoad Breaker Test Operating SCU Functions of LED indicatorsOperation Panel Functions of SCU keysFirst 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 Alarm Types Of Dry Contacts Changing Audible/Visual Alarm And Alarm Call Back PlanSetting Alarm Type For Dry Contacts Changing audible/visual alarm and alarm call back planAlarm type Remark Optional alarm typesSet the Alarm Names Through PLC Function Example of PLC setting Logic matrix used for configuring 8 dry contactsPLC SN and Alarm Alarm Remark DescriptionPLC Alarm Remark DescriptionLlvd Blvd MaintenanceOperating SCU Parameter Setting Method Setting System ParametersPress 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 BC/FC switchover diagram is shown below Parameter Range Default Value description12 Charging management parameter value description There are 7 related pages, as shown below Battery Test ParametersSchematic diagram of the test function is shown below 13 Value description of the battery test parametersValue 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 belowPower system model System type Alarm SettingsFirst page of the setting interface is show below 19 Relationship between system model and system type20 Value description of alarm settings Maintenance Of Rectifier Routine MaintenanceMaintenance Of SCU Maintenance Of MFUStore the battery in a cool dry place Battery MaintenanceCover Plates Storage And SupplementaryReplacement Troubleshooting Rectifier TroubleshootingTroubleshooting Symptom Cause SuggestionDisastrous Accidents Mains FailureParameter Category Appendix System Technical ParametersEMC 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 Abbreviation Full word Appendix GlossaryHvsd LVD
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