AEG PV.500-MH manual Electrical Hazards

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Protect PV.500_MH Operating Instructions

2.8.1Electrical Hazards

DANGER

Contact with voltage!

Risk to life due to electric shock.

Use dry insulating material to remove the victim from the live parts.

Seek medical assistance and inform the control room.

Disconnect the equipment safely.

DANGER

Electric shock after activating "System stop"!

Parts of the equipment remain live after "System stop" has been activated (e.g. external voltage present at re- mote signal terminals).

Risk to life due to electric shock.

Disconnect the equipment safely.

DANGER

Electric shock caused by inverter.

Parts of the equipment remain live after the inverter has been shut down.

Risk to life due to electric shock.

Disconnect the equipment safely.

DANGER

Electric shock caused by back feeding.

The input terminals of the equipment may remain live after the incoming power supply has been interrupted.

Risk to life due to electric shock.

Disconnect the equipment safely.

Install back feeding protection (a disconnector) in the load circuit.

DANGER

Electric shock caused by leakage currents.

The capacitors generate high leakage currents in the equipment. Conductive parts may be live in the event of connection errors.

Risk to life due to electric shock.

Establish a PE conductor connection prior to start-up.

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Contents Operating Instructions Protect PV.500-MHAEG Power Solutions GmbH Table of Contents Interfaces Monitoring Systems, Messages and FaultsSystem Function Graphical Display and Operation Unit Warranty Information on How to Use these InstructionsGeneral Information ValidityExplanations of Target Groups Target GroupsObligations of the Equipment Operator HandlingSkilled Personnel Skills and Training Obligations of skilled personnel Storing InstructionsSymbol Meaning Explanation of Symbols and Safety InstructionsExplanation of Symbols Signal Words Used Safety InstructionsHazard Symbols Used Symbol Meaning for skilled personnelSigns Containing Orders for Personal Protective Equipment Abbreviations Emergency Procedure e.g. in the Event of a FireSafety Awareness Lightning protection Particular Dangers associated with Photovoltaic SystemsThin-film cells Safety and Protection Devices for the Equipment Safety Signs and Warning Notices on the EquipmentSystem stop switch Protective CoversResidual Hazards Lockable Equipment DoorsGuard Electrical Hazards Fire-Related Risks Risks Due to Moving PartsWater in electrical equipment Risk of injury due to rotating fansRisks due to Loss of Control Risks from Maintenance and Repair WorkImportant information about equipment documenta- tion Product DetailsProduct Description Safety Dimensions and ViewsAppropriate Use Inappropriate UseNameplate Standards, Directives and CE MarkTechnology Operating Elements Individual Operation System DescriptionDescription of Sequence Control System FunctionOFF Status Waiting for Feed Conditions StatusWaiting Status Operation StatusNight Status Fault StatusSequence Control During the Course of the Day Early morningEvening DayLater in the evening NightPermissible voltage dip after switching on the stack Inverter stack switch-on timePower limit value for shutdown, delay time for shutdown Sequence Control ParametersFan Control, Cabinet Fan Description of Fan Control GeneralFan Control, Inverter Stack Fan Cabinet Fan Control ParametersIgbt temperature limit Igbt temperature limit value for switching off the fanParameters of Inverter Stack Fan Control Insulation Monitoring and Earthing of PV Cells GeneralProtect PV.500-MH Operating Instructions Operation with Thin-Film Solar Cells Maintenance modeGeneral Sequence controlMinimum time in maintenance mode Delay for shutdown of K21 in night operationInsulation Monitoring Parameters MPP TrackerMonitoring Systems, Messages and Faults Temperature monitoring systems Table of FaultsCan I/O monitoring systems Fault/Message Unit Monitoring Systems Fault/Message DC voltage monitoring systems Fault/Message Communication Interface InterfacesCommunication data port 1 Technical Data MultiCom CCC hardware data assembly A29.1Communication data port 2 Communication data port 3Structure of the MultiCom CCC Interface Configuration jumpersConnections ButtonDescription of serial interfaces Shield connection of the RS485 bus line Port 2 X5 RS485 pin assignment defaultPort 2 X5 RS232 pin assignment ConfigurationController Area Network can at Port 3 X4 can pin assignmentSetting the terminal program Configuration PreparationsProtect PV.500MH Operating Instructions Data protocol configuration Configuring the Modbus ProtocolModbus/JBus data transmission configuration Configuring Modbus Data TransmissionNetwork Connection Structure of the COM Server internally wired to A93COM Server General Installation of the COM Server Configuration of the Virtual COM Port Network Integration ConfigurationStructure Remote SignallingTechnical data Following default signals are used for remote signalling DOU Graphical Display and Operation UnitAcoustic signal generator SignallingKeyboard Operation LEDsStart-up Possible symbol keys and their functionMain Menu Menu Structure Menu TreeOperating display Normal operation Operating DisplayExample of operating display Examples of possible displaysSolar radiation is too low, the inverter is in standby mode Monthly data t = day 1 31 for the last 12 months Example of yearly overview Status/Measured Values MenuMenu Inverter example BlockingSettings Fault HistoryService Information