Xantrex Technology PS2.5 Switch 2 Not Used RatingAmps CurrentDraw, Switch Breaker MaxAC, 12V 24V

Page 45

Section 3: Configuration

SWITCH BANK 2 (SW2)

Audible Alarm

Switch 1

 

 

 

 

cUP

Audible signals enabled

 

DOWN

Audible signals disabled

 

Switch 2 Not Used

 

 

Rating(Amps)

CurrentDraw

AC service rating

 

 

 

 

 

Switch 3

Switch

Breaker

MaxAC

 

 

 

 

 

4

 

 

 

cUP

cUP

10 A

8 A

 

DOWN

UP

15 A

12A

 

UP

DOWN

20 A

16A

 

DOWN

DOWN

30 A

24A

Maximum DC

Charging Amps

PS 2.5

 

PS 3.0

 

12V

24V

12V

24V

55

30

55

30

90

45

90

45

100

55

100

60

100

55

120

60

Battery Size

Switch 5, 6, 7, 8

 

 

 

Max DC charging current (amps)

 

 

 

 

Battery

Prosine 2.5

Prosine 3.0

#5

#6

#7

#8

Capacity

12V

24V

12V

24V

 

 

 

 

 

 

 

 

 

cUP

cUP

cUP

cUP

50 Ah

11A

11A

11A

11A

DOWN

UP

UP

UP

75 Ah

25A

25A

25A

25A

 

 

 

 

 

 

 

 

 

UP

DOWN

UP

UP

100 Ah

33A

33A

33A

33A

DOWN

DOWN

UP

UP

150 Ah

50A

50A

50A

50A

 

 

 

 

 

 

 

 

 

UP

UP

DOWN

UP

200Ah

67A

50A

67A

60A

DOWN

UP

DOWN

UP

300 Ah

100A

50A

100A

60A

 

 

 

 

 

 

 

 

 

UP

DOWN

DOWN

UP

400 Ah

100A

50A

120A

60A

DOWN

DOWN

DOWN

UP

500 Ah

100A

50A

120A

60A

 

 

 

 

 

 

 

 

 

UP

UP

UP

DOWN

600 Ah

100A

50A

120A

60A

DOWN

UP

UP

DOWN

700 Ah

100A

50A

120A

60A

 

 

 

 

 

 

 

 

 

UP

DOWN

UP

DOWN

800 Ah

100A

50A

120A

60A

DOWN

DOWN

UP

DOWN

1000 Ah

100A

50A

120A

60A

 

 

 

 

 

 

 

 

 

UP

UP

DOWN

DOWN

1200 Ah

100A

50A

120A

60A

DOWN

UP

DOWN

DOWN

1400 Ah

100A

50A

120A

60A

 

 

 

 

 

 

 

 

 

UP

DOWN

DOWN

DOWN

1700 Ah

100A

50A

120A

60A

DOWN

DOWN

DOWN

DOWN

2000 Ah

100A

50A

120A

60A

 

 

 

 

or greater

 

 

 

 

Prosine 2.5/3.0 Installation & Operation Guide

27

Image 45
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 Controls and Indicators DIP Switch PanelAccessory Jacks AC Bypass Selector DC Terminals & CoversAC 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 ConfigurationBattery Temperature Battery TypeNot used Load SenseSwitch Breaker MaxAC Switch 2 Not Used RatingAmps CurrentDrawSwitch 5, 6, 7 12V 24VACS Configuration User Configuration ItemsInstaller Configuration Items ACS Configuration Considerations AC Shorepower Configuration Battery Configuration Battery TypeBattery 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 Inverter/Charger Installation Safety InstructionsInstallation 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 and DC Wiring Separation Recommended Wire Size vs Breaker RatingAC Cabling AC Disconnect and Overload ProtectionWire Size Fuse Size DC CablingDC Over-Current Protection DC Disconnect Battery Cable RoutingDC Cabling Connections 10 ft 15 ft 20 ft 30 ftRecommended DC Cable Sizes For Proper Operation DC Cabling ProcedureConnecting the Battery Temperature Sensor DC GroundingMounting 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 Charging Profile Multistage ChargingBulk Charge Absorption ChargeEqualization Charge Float ChargeOperation in Charger Mode Operation in Equalization 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 Batteries TerminologyTypes Deep-Cycle Batteries Starting BatteriesSealed Gel Cell TemperatureEnvironment LocationEstimating Battery Requirements Battery Bank SizingBattery Sizing Example Battery Bank Sizing Example & WorksheetBattery Sizing Worksheet Cleaning Batteries Monthly Battery MaintenancePreparation AttireProcedure EquipmentSupplies Cables Cabling & Hook-up ConfigurationsParallel Connection 50 Ah100 Ah Series Connection24V Series Parallel ConnectionCabling & Hook-up Configurations Appendix a Specifications Prosine 2.5 12-volt Prosine 3.0 12-voltVolt 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 2.5 Efficiency Curve Prosine Over-Current Shutdown ResponseProsine 2.5 Efficiency 120Vac, 12Vdc model Prosine 2.5/3.0 Installation & Operation Guide Appendix B Inverter Applications Problem Loads in Load SenseResistive Loads Inductive LoadsOther Problem Loads What to do if a problem occurs Appendix C TroubleshootingError Code Displays and What They Mean Control PanelAdvanced 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.