Xantrex Technology SW3000 user service Connecting the AC Output Wires, Damage other equipment

Page 39

Installing the Inverter/Charger

8.Connect the line and neutral wires to the input terminals (labeled AC Input on the terminal block, Figure 4 on page 24). Connect Line 1 to L1, Neutral to N, Line 2 to L2.

9.Tighten the terminal screws. Leave some slack wire inside the wiring box.

10.Connect the ground wires to a free position on the ground bus, Figure 4 on page 24. If solid ground wire is being used, the wire can be connected directly under the screw heads. If stranded ground wire is being used, ring terminals must also be used.

11.Secure the strain-relief clamp on the AC input cable jacket.

Connecting the AC Output Wires

 

 

 

 

 

 

 

 

 

 

 

 

EQUIPMENT DAMAGE

only.

Do not connect the output of the inverter to any incoming AC source.

Failure to follow these instructions can damage the unit and/or

damage other equipment.

installers

 

 

 

To make the AC output wiring connections:

 

1.

Remove one of the AC knockouts from the front or side of the unit. Do

qualified

 

not leave the knockout inside the wiring compartment.

 

 

 

 

 

IMPORTANT: The applicable installation code may not allow you to run

by

the AC input and AC output wiring through the same AC knockout.

2.

Install a strain-relief clamp in the AC knockout and run the AC wiringuse

 

through the strain-relief clamp.

for

3.

Strip approximately 2 inches (50 mm) off the jacket from the AC cable

guide

 

and separate the wires.

 

 

4.

Using a 1/4" blade slot screwdriver, loosen the terminal screws on the

This

 

AC output terminals. Do not remove the screws.

 

 

5.

Connect the line and neutral wires to the output terminals (labeled AC

 

 

Output on the terminal block, Figure 4 on page 24) as follows:

 

975-0546-01-01

25

Image 39
Contents Freedom SW Sine Wave Inverter/Charger Page This guide for use by qualified installers only Statement of Hazard About This GuideRelated Information Electrical Shock Hazard Important Safety InstructionsExplosion Hazard Fire and Burn HazardPrecautions When Working With Batteries Precautions When Preparing to Charge Exposure to Chemicals and Gases HazardRisk of Damage to the INVERTER/CHARGER Limitations on USE RegulatoryContents Page This guide for use by qualified installers only Page Introduction Materials List Materials ListElectrical Shock and Fire Hazards Installation InformationBefore You Begin the Installation Installation CodesAbout the Xanbus System Typical Xanbus System DiagramSystem Accessories Xanbus EnabledMounting Location of the Freedom SW Planning the InstallationTwo Key Performance Factors Size and Length of DC CablesAC, DC, and Network Components PlanningPlanning AC Loads AC ComponentsAC Input AC OutputTested GFCIs AC Input ProtectionAC Output Protection Gfci RequirementsDistribution Panels AC WiringAC Output Neutral Bonding DC Cabling DC ComponentsBatteries DC Disconnects and Over-Current DevicesDC Grounding Heavy Load Installation Tools and Materials ToolsMaterials Overview Installing the Inverter/ChargerChoosing a Location for the Inverter/Charger Fire and Explosion HazardHeat Hazard Close to BatteryBattery acid SafeMounting the Inverter/Charger ConsiderationsTo mount the inverter/charger By qualified installers only Approved Mounting Orientation Orientation? Connecting the AC Input and AC Output Wires General AC Wiring ConsiderationsFIRE, Electrical SHOCK, and Energy Hazards Connecting AC Input Wires Equipment DamageTo make the AC input connections Connecting the AC Output Wires To make the AC output wiring connectionsDamage other equipment Lines for Single To prepare the DC cables Connecting the DC CablesDC Connection Precautions Preparing the CablesElectrical Shock and Fire Hazard Guidelines for Routing the DC CablesTo connect the DC cables Connecting the DC Cables to the Inverter/ChargerFire Hazard Equipment Damage DUE to Reverse PolarityDC Terminal Covers To connect the chassis ground DC Wiring and DC GroundingMounting Options Connecting the Battery Temperature Sensor BTSTo mount the sensor on the negative battery terminal Mounting to the Negative Battery TerminalConnecting the BTS Cable to BTS Jack To mount the sensor on the battery case Mounting to the Side of the Battery CaseTo connect the Freedom SW 3000 to the Xanbus network Connecting to the NetworkPerforming Checks Prior to Initial Start-Up Testing in Invert Mode Testing Your InstallationTesting in Charge Mode and AC Bypass Mode Installation CompleteTo verify that the Freedom SW 3000 starts charging Inverter/Charger Physical Specifications Calculate Battery Size Battery InformationBattery Bank Sizing Calculating Battery SizeBattery Information Battery Banks Battery Bank Sizing WorksheetRestrictions on Motor Size = Total watt-hours of AC load between charges Parallel Connection Cabling and Hook-up ConfigurationsBatteries Connected in Series Series ConnectionBatteries in Series-Parallel Connections Series-Parallel ConnectionsPage Page Xantrex Technology Inc

SW3000 specifications

Xantrex Technology SW3000 is a versatile and powerful inverter that plays a crucial role in providing reliable electrical power to off-grid and mobile applications. Designed specifically for those who require a dependable power source in remote locations or for recreational vehicles, the SW3000 stands out with its excellent features and innovative technologies.

One of the primary characteristics of the SW3000 is its ability to deliver a continuous output of 3000 watts, making it suitable for a wide range of appliances and tools. The inverter can handle startup loads for inductive devices, such as refrigerators and air conditioners, with ease. This capability ensures that users can operate their essential equipment without the worry of overloading the system.

The SW3000 inverter is equipped with advanced Pure Sine Wave technology, ensuring that the output power is clean and stable. Pure Sine Wave inverters are crucial for sensitive electronics, as they provide a smooth power output that mimics the utility grid. This feature protects your devices from potential damage caused by lower-quality inverter systems.

Additionally, the Xantrex SW3000 offers integrated features such as an automatic transfer switch, which seamlessly transfers power between the inverter and utility power when both are available. This ensures uninterrupted operation and convenience for the user. The inverter also has a user-friendly interface, including LED indicators that provide information on the inverter's status, allowing for easy monitoring.

Another significant aspect of the SW3000 is its robust thermal management. The design includes built-in cooling fans that prevent overheating during heavy use, ensuring the longevity of the unit. The inverter also comes with multiple safety features, such as over-voltage, under-voltage, and over-temperature protection, offering peace of mind.

Furthermore, the SW3000 is engineered for easy installation, including versatile mounting options, making it an excellent choice for various applications, from boats and RVs to cabins and backup power systems. Its durable design enables it to withstand harsh environmental conditions, ensuring reliable performance in diverse settings.

Overall, the Xantrex Technology SW3000 inverter combines power capacity, advanced technology, and user-friendly features, making it a top choice for those seeking reliable power solutions in off-grid and mobile environments.