Xantrex Technology PS2.5, PS3.0 installation and operation guide Battery Charger Features

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Section 1: Features

Congratulations on your purchase of the Prosine inverter/charger. The Prosine inverter/charger uses advanced high-frequency switching technology in the power conversion process. The circuits are similar to those used in power supplies for computers and other modern electronic equipment. This technology offers several benefits:

Light weight: for easy installation

Quiet operation: no transformer buzz

Clean DC output: filtered output for ideal battery charging

High surge capability: for hard-to-start AC loads

All Prosine inverter/chargers are approved for general use including residential, recreational vehicle, marine, and photovoltaic applications based upon Canadian Standards Association (CSA), Underwriter Laboratories (UL), and other regulatory agency standards. Prosine inverter/chargers meet the stringent requirements of CSA 107.1 “General Use Power Supplies,” UL 458 “Power Converters/Inverters and Power Converter/Inverter Systems for Land Vehicles and Marine Crafts,” UL1741 “Power Conditioning Units for Use in Residential Photovoltaic Systems,” and other standards.

Battery Charger Features

Dead Battery Charging Starts recharging batteries even if the battery voltage is near zero.

Power Factor Correction High power factor charging results in faster battery charging because lower AC current is required from your generator or shorepower. When the AC source has limited capacity, the charger leaves more current available for other AC loads on the circuit. On a 15-ampere shorepower circuit, a Prosine charger delivers as much as 100 amps of DC current to the battery, while non power-factor-corrected chargers typically can deliver only about 70 amps.

Automatic Three-Stage Charging Whenever AC power is supplied to the Prosine inverter/charger, the “smart” charging capability of the Prosine provides a three-stage charge to quickly bring back deep-cycle batteries to their full charge. Using microprocessor control, the Prosine precisely regulates the voltage and current delivered to the battery, accurately charging the battery without risk of overcharging and battery damage. Depleted batteries are taken through the recommended “Bulk”, “Absorption”, and “Float” stages. The charging algorithm used in the Prosine inverter/charger is based on the same charge cycle algorithm used in Xantrex’s proven Truecharge battery charger line.

Manual Equalization Charging The Prosine inverter/charger enables you to initiate an equalization charge to optimize your battery capacity and rejuvenate your batteries. Equalization (for flooded batteries only) helps reduce sulfation and extends battery life.

Battery Temperature Sensor Since battery temperature is a key factor in correct charging, the charging formula must be adjusted (automatically and in real time) according to the actual battery temperature to ensure that batteries are fully, but not over charged. For this reason, Xantrex has included a battery temperature sensor with your Prosine inverter/charger and has temperature- compensated the charge algorithm.

Prosine 2.5/3.0 Installation & Operation Guide

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Contents PS2.5 PS3.0 Page ProsineTM Installation and Operation GuideDate 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 Product DisclaimerReturn Material Authorization Policy Return Procedure Contents Configuration Operation Appendix B Inverter Applications Battery Charger Features FeaturesInverter Features Features Inverter Features DIP Switch Panel Controls and IndicatorsAccessory Jacks DC Terminals & Covers AC Bypass SelectorAC Terminals & Covers Standard LED Control Panel Display Standard LED Control PanelFaults Indicators & Reset Button Battery Status IndicatorInverter Status Indicators and On/Off Button Charger Status Indicator and On/Off Button Power IndicatorMounting and Installing the LED Control Panel ACS Control Panel Control Buttons Liquid Crystal DisplayACS Menu Tree Menu Navigation ProcedureAC Information Menu Inverter Information Menu Battery Information MenuCharger Status Charger Information MenuSystem Information Menu Version Information Menu Inverter Status Indicators and On/Off Button Faults Display & Reset ButtonCharger Status Indicator and On/Off Button Power IndicatorMounting and Installing the ACS Control Panel Battery Temperature Sensor Battery Temperature SensorBattery Temperature Sensor DIP Switch Settings ConfigurationLoad Sense Battery TypeBattery Temperature Not used12V 24V Switch 2 Not Used RatingAmps CurrentDrawSwitch Breaker MaxAC Switch 5, 6, 7User Configuration Items ACS ConfigurationInstaller Configuration Items ACS Configuration Considerations AC Shorepower Configuration Battery Type Battery ConfigurationBattery Size Battery Temperature Battery Info Type Flooded Load Sense TURN- on POWER1401 W Inverter ConfigurationHigh and Low Voltage Alarms and Cutoffs Charger ConfigurationEqualize is NOW Disabled Equalize is NOW Enabled System Configuration Safety Instructions Inverter/Charger InstallationInstallation Overview Installation Overview Inverter/Charger Installation Designing the Installation Gfci Models Tools and Materials Required Where to Install the Prosine Inverter/ChargerAmbient temperature deg. C Mounting the Prosine Inverter/Charger AC Disconnect and Overload Protection Recommended Wire Size vs Breaker RatingAC and DC Wiring Separation AC CablingDC Cabling Wire Size Fuse SizeDC Over-Current Protection 10 ft 15 ft 20 ft 30 ft Battery Cable RoutingDC Disconnect DC Cabling ConnectionsRecommended DC Cable Sizes For Proper Operation DC Cabling ProcedureDC Grounding Connecting the Battery Temperature SensorMounting Options BTS Attached to Negative Battery Terminal Mounting to the Negative Battery TerminalBTS Attached to Battery Case Mounting to the Side of the Battery CaseResidential Backup System Typical System DiagramsRecreational Vehicle System Residential Solar and Wind System Operation Operating Limits for Inverter Operation Prosine Inverter Load Sense ModeProsine Operating Voltage Limits Operating Limits for Inverter Operation Absorption Charge Multistage ChargingCharging Profile Bulk ChargeEqualization Charge Float ChargeOperation in Equalization Mode Operation in Charger ModeEqualization Procedure Adjustable Charger Mode Settings Operating Limits for Charger Operation Battery Charging TimesModel Flooded Comments Gel Battery Charging and Equalization GuideAGM Operating Limits for Charger Operation Terminology BatteriesTypes Deep-Cycle Batteries Starting BatteriesLocation TemperatureSealed Gel Cell EnvironmentEstimating Battery Requirements Battery Bank SizingBattery Sizing Example Battery Bank Sizing Example & WorksheetBattery Sizing Worksheet Attire Monthly Battery MaintenanceCleaning Batteries PreparationEquipment ProcedureSupplies 50 Ah Cabling & Hook-up ConfigurationsCables Parallel Connection100 Ah Series Connection24V Series Parallel ConnectionCabling & Hook-up Configurations Prosine 2.5 12-volt Prosine 3.0 12-volt Appendix a SpecificationsVolt in parenthesis Prosine 2.5 12-volt Prosine 3.0 12-volt Volt in parenthesis Charger Output VoltagesProsine 2.5/3.0 Chassis Dimensions Prosine 2.5/3.0 Chassis Dimensions with Brackets Prosine Over-Current Shutdown Response Prosine 2.5 Efficiency CurveProsine 2.5 Efficiency 120Vac, 12Vdc model Prosine 2.5/3.0 Installation & Operation Guide Inductive Loads Problem Loads in Load SenseAppendix B Inverter Applications Resistive LoadsOther Problem Loads What to do if a problem occurs Appendix C TroubleshootingControl Panel Error Code Displays and What They MeanAdvanced Control System ACS Error Description of Fault Possible Cause Solution Code Error Code TableError 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.