Xantrex Technology PS3.0, PS2.5 installation and operation guide Faults Display & Reset Button

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Faults Display & Reset Button

Faults Display & Reset Button

Fault LED This LED flashes on-and-off during an error condition from which the unit will automatically recover and restart when the condition is remedied. The FAULT LED will

be lighted steadily when any error occurs from which the inverter/charger cannot automatically recover. It is usually necessary to disconnect the AC or DC supply to recover from this type of error. An error condition is accompanied by an

audible alarm if the alarm is enabled. All error messages, their meanings, and the appropriate action to take are listed in a table in “Appendix C: Troubleshooting”.

Temp LED This LED flashes on-and-off to indicate excessive internal temperature of the Prosine inverter/charger and the unit has shutdown. When the internal temperature of the unit cools sufficiently, the inverter/charger will automatically restart. The audible alarm that accompanies this condition (if enabled) will also be silenced upon auto-restart.

Reset Button The RESET button on the Faults panel has two functions: silencing the audible alarm; and displaying error codes. Pressed and released, it will silence the audible alarm which, if enabled, will sound an irritating intermittent tone anytime an error condition occurs. Pressed and held, the RESET button causes the LCD screen to display error codes.

Inverter Status Indicators and On/Off Button

Invert LED When the green INVERT LED is flashing, shorepower is not present, Load Sense is enabled, and no AC loads exceed the Load Sense threshold. The inverter is not producing AC power from the batteries. When the Invert LED is lighted steadily, shorepower is not present and the inverter is producing AC power from the batteries. The INVERT LED is not lighted when shorepower is present.

Standby LED When the amber LED labeled STANDBY is lighted steadily, shorepower is present and the inverter will pass AC power through to any AC loads that may be present.

If shorepower should fail or be removed while the inverter is in Standby mode, the inverter will automatically begin to produce AC power from the batteries, and the INVERT LED will be lighted.

ON/OFF Button When pressed, this button switches the inverter from On to Standby mode.

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Prosine 2.5/3.0 Installation & Operation Guide

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Contents PS2.5 PS3.0 Page Installation and Operation Guide ProsineTMDate and Revision Important Safety Instructions Precautions When Working with Batteries Materials List System / Installation Information Inverter/Charger Components Prosine 2.5/3.0 Installation & Operation Guide Warranty Disclaimer ProductReturn Material Authorization Policy Return Procedure Contents Configuration Operation Appendix B Inverter Applications Features Battery Charger FeaturesInverter Features Features Inverter Features Accessory Jacks Controls and IndicatorsDIP Switch Panel AC Terminals & Covers AC Bypass SelectorDC Terminals & Covers Standard LED Control Panel Standard LED Control Panel DisplayBattery Status Indicator Faults Indicators & Reset ButtonInverter Status Indicators and On/Off Button Power Indicator Charger Status Indicator and On/Off ButtonMounting and Installing the LED Control Panel ACS Control Panel Liquid Crystal Display Control ButtonsMenu Navigation Procedure ACS Menu TreeAC Information Menu Battery Information Menu Inverter Information MenuCharger Information Menu Charger StatusSystem Information Menu Version Information Menu Faults Display & Reset Button Inverter Status Indicators and On/Off ButtonPower Indicator Charger Status Indicator and On/Off ButtonMounting and Installing the ACS Control Panel Battery Temperature Sensor Battery Temperature SensorBattery Temperature Sensor Configuration DIP Switch SettingsNot used Battery TypeBattery Temperature Load SenseSwitch 5, 6, 7 Switch 2 Not Used RatingAmps CurrentDrawSwitch Breaker MaxAC 12V 24VInstaller Configuration Items ACS ConfigurationUser Configuration Items ACS Configuration Considerations AC Shorepower Configuration Battery Size Battery Temperature Battery ConfigurationBattery Type Battery Info Type Flooded Inverter Configuration Load Sense TURN- on POWER1401 WCharger Configuration High and Low Voltage Alarms and CutoffsEqualize is NOW Disabled Equalize is NOW Enabled System Configuration Installation Overview Inverter/Charger InstallationSafety Instructions Installation Overview Inverter/Charger Installation Designing the Installation Gfci Models Where to Install the Prosine Inverter/Charger Tools and Materials RequiredAmbient temperature deg. C Mounting the Prosine Inverter/Charger AC Cabling Recommended Wire Size vs Breaker RatingAC and DC Wiring Separation AC Disconnect and Overload ProtectionDC Over-Current Protection Wire Size Fuse SizeDC Cabling DC Cabling Connections Battery Cable RoutingDC Disconnect 10 ft 15 ft 20 ft 30 ftDC Cabling Procedure Recommended DC Cable Sizes For Proper OperationMounting Options Connecting the Battery Temperature SensorDC Grounding Mounting to the Negative Battery Terminal BTS Attached to Negative Battery TerminalMounting to the Side of the Battery Case BTS Attached to Battery CaseTypical System Diagrams Residential Backup SystemRecreational Vehicle System Residential Solar and Wind System Operation Prosine Inverter Load Sense Mode Operating Limits for Inverter OperationProsine Operating Voltage Limits Operating Limits for Inverter Operation Bulk Charge Multistage ChargingCharging Profile Absorption ChargeFloat Charge Equalization ChargeEqualization Procedure Operation in Charger ModeOperation in Equalization Mode Adjustable Charger Mode Settings Battery Charging Times Operating Limits for Charger OperationBattery Charging and Equalization Guide Model Flooded Comments GelAGM Operating Limits for Charger Operation Types BatteriesTerminology Starting Batteries Deep-Cycle BatteriesEnvironment TemperatureSealed Gel Cell LocationBattery Bank Sizing Estimating Battery RequirementsBattery Bank Sizing Example & Worksheet Battery Sizing ExampleBattery Sizing Worksheet Preparation Monthly Battery MaintenanceCleaning Batteries AttireSupplies ProcedureEquipment Parallel Connection Cabling & Hook-up ConfigurationsCables 50 AhSeries Connection 100 AhSeries Parallel Connection 24VCabling & Hook-up Configurations Volt in parenthesis Appendix a SpecificationsProsine 2.5 12-volt Prosine 3.0 12-volt Charger Output Voltages Prosine 2.5 12-volt Prosine 3.0 12-volt Volt in parenthesisProsine 2.5/3.0 Chassis Dimensions Prosine 2.5/3.0 Chassis Dimensions with Brackets Prosine 2.5 Efficiency 120Vac, 12Vdc model Prosine 2.5 Efficiency CurveProsine Over-Current Shutdown Response Prosine 2.5/3.0 Installation & Operation Guide Resistive Loads Problem Loads in Load SenseAppendix B Inverter Applications Inductive LoadsOther Problem Loads Appendix C Troubleshooting What to do if a problem occursAdvanced Control System ACS Error Code Displays and What They MeanControl Panel Error Code Table Error Description of Fault Possible Cause Solution CodeError Code Table Appendix C Troubleshooting Error Description of Fault Possible Cause Solution Code Error Description of Fault Possible Cause Solution Code Error Code Table Index Index Gases, battery venting, 50 gel-cell,30 Index Index 100 Page 445-0096-01-01

PS3.0, PS2.5 specifications

Xantrex Technology has made significant strides in the power electronics sector with the introduction of their PS2.5 and PS3.0 inverter models. These inverters are designed primarily for solar energy applications, offering reliable and efficient power conversion for residential and commercial solar installations. The PS series stands out in the market due to its advanced features, innovative technologies, and user-friendly characteristics.

One of the main features of the Xantrex PS2.5 and PS3.0 inverters is their high efficiency rating, typically above 97%. This means that a minimal amount of energy is lost during conversion, allowing users to maximize their solar energy utilization. Additionally, these inverters come with a wide input voltage range, making them versatile and capable of handling various solar panel configurations.

Both models are equipped with advanced MPPT (Maximum Power Point Tracking) technology. This feature optimizes the energy output from solar panels by constantly adjusting the operating point to ensure maximum power is extracted, even in variable weather conditions or partial shading. This capability significantly enhances the overall energy harvest from solar systems.

Another notable characteristic is their compact and lightweight design, which facilitates easy installation and integration into existing systems. The inverters are also designed with robust thermal management solutions, ensuring they operate effectively even in high-temperature environments. This durability extends their lifespan and increases reliability, critical factors for any solar installation.

Xantrex has also prioritized user experience with the PS2.5 and PS3.0 models by providing a built-in monitoring system. Users can access real-time data on energy production, performance metrics, and system status through a user-friendly interface. This connectivity allows for quick troubleshooting and maintenance, thus enhancing the overall efficiency of solar energy systems.

Safety is paramount in the design of these inverters. They meet stringent international safety standards and come equipped with comprehensive protection features, including over-voltage, under-voltage, and short-circuit protection. This ensures the inverter operates safely, protecting both the user and the connected solar array.

In summary, Xantrex Technology's PS2.5 and PS3.0 inverters are engineered with cutting-edge features and technologies that cater to the evolving needs of solar energy users. Their efficiency, adaptability, and focus on safety make them an excellent choice for those looking to invest in renewable energy solutions. As the demand for sustainable energy continues to rise, Xantrex is poised to play a significant role in the market with these innovative inverter solutions.