Xantrex Technology 1000 manual Battery Tips

Page 54

Battery Tips

Battery Tips

WARNING

Review “Precautions When Working With Batteries” on page vii before you work with the batteries in your system.

Explosive/

Corrosive

Gases

Lead-acid batteries may emit hydrogen gases, oxygen, and sulfuric acid fumes when recharging. To reduce the risk of explosion:

Vent the battery compartment to prevent the accumulation of gases.

Do not install electronic or electrical equipment in the battery compartment.

 

• Do not smoke or use an open flame when working around batteries.

Temperature

The capacity of lead-acid batteries is temperature sensitive. Battery

Sensitivity

capacity is rated at 77 ºF (25 ºC). At 0 ºF (–20 ºC), the Ah capacity is

 

about half the rated capacity. You should consider temperature when

 

designing your system.

 

Low Temperatures If extremely low temperatures are expected

 

where the inverter is going to be located, you should consider a

 

heated equipment room. If the system is located in an unheated space,

 

an insulated battery enclosure is recommended.

 

High Temperatures The batteries should also be protected from high

 

temperatures. These can be caused by high ambient temperatures,

 

solar heating of the battery enclosure, or heat released by a nearby

 

engine or generator. High battery temperatures shorten battery life

 

and therefore you should ventilate the enclosure and use shade and

 

insulation as appropriate.

Discharged

Do not leave batteries in a discharged state for more than a day or two.

Batteries

They will undergo a chemical process (sulfation) that can permanently

 

damage the battery. As well, batteries self-discharge over a period of three

 

to six months, and they should be recharged periodically even if they are

 

not being used.

Electrolyte

If your batteries are not the “maintenance-free” type, check the electrolyte

Level

level at least once a month. Excessive fluid loss is a sign of overcharging.

 

Replenish the electrolyte using only distilled water.

975-0127-01-01

B–7

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Contents Page XPower Inverter Owner’s GuideDate and Revision Scope About This GuidePurpose AudienceConventions Used Related InformationImportant Safety Instructions Explosive gas precautions Precautions When Working With Batteries Precautions for Using Rechargeable Appliances Contents Battery Types TroubleshootingSpecifications OperationAlternators and Charging Systems Xii Quality Power IntroductionEase of Use Comprehensive ProtectionFeatures Materials ListFeature Description AC PanelDC Panel Negative DC Cabling Terminal always connects to the cablePage Installation Designing Your Installation1Configuration for Normal Loads 2Configuration for Heavy Loads Installation Codes Calculating Battery RequirementsChoosing an Effective Charging System Choosing an Appropriate Location Calculating Cable Sizes Calculating Size of DC Input CablesCalculating Size of Chassis Ground Cable Calculating Fuse/Circuit Breaker Size To select the correct fuse type and sizeInstalling the XPower Safety InstructionsInstallation Tools and Materials Installation Overview of Installation Steps Mounting the InverterConnecting the Chassis Ground Grounding LocationsConnecting the DC Cables Chassis Ground ScrewInstallation Installing the XPower Page Operation Turning the Inverter On and OffOperating Several Loads at Once Turning the Inverter Off Between ChargesPower Output Operating LimitsInput Voltage Inverter Loads High Surge LoadsTrouble Loads Routine Maintenance XPower 1000 unitBatteries Page Troubleshooting Common Problems Buzz in Audio EquipmentTelevision Reception Troubleshooting Reference Troubleshooting ReferenceTroubleshooting Reference Specifications Physical SpecificationsElectrical Performance Mounting Templates Battery Types Battery TypesAutomotive Starting Batteries Battery Size Deep-Cycle BatteriesBattery Reserve Estimating Battery Requirements Battery Sizing ExampleBattery Sizing Worksheet Using Multiple Batteries Two Separate Battery BanksTwo Batteries Connected In Parallel Battery Tips Following table Alternators and Charging Systems Charging System RequirementsUsing a High-Output Alternator Using a Standard Vehicle AlternatorUsing an Alternator Controller Charging With an Engine AlternatorCharging From AC Power Charging From Alternative Energy SourcesPage Warranty and Return Information WarrantyWA-2 975-0127-01-01 Disclaimer ProductExclusions Return Material Authorization Policy Return ProcedureOut of Warranty Service Information About Your System Purchased From Purchase Date
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1000 specifications

Xantrex Technology offers a range of power inverters that cater to both recreational and professional needs, with the Xantrex 1800 and 1000 models being among the most popular in their lineup. These inverters are specially designed to convert DC power from batteries into clean, pure sine wave AC power, making them suitable for running sensitive electronic devices and appliances.

The Xantrex 1800 is a robust inverter that delivers 1800 watts of continuous power and 3600 watts of peak power. This makes it ideal for powering essential appliances like refrigerators, microwaves, and power tools. Its compact design allows for easier installation in various settings such as RVs, boats, and off-grid homes.

On the other hand, the Xantrex 1000 inverter is designed for lower power requirements, offering 1000 watts of continuous power and 2000 watts of peak power. It is perfect for powering small appliances, electronics, and gadgets, making it a great choice for weekend campers and those who require less energy capacity.

Both models feature advanced technologies, including low idle power draw, which ensures that energy is conserved when the inverter is not actively powering devices. They also include overload protection, ensuring the inverter shuts down automatically if the power exceeds its limits, thus preventing damage to the unit or connected devices.

Another hallmark of Xantrex inverters is their user-friendly interface. The LED indicator lights provide clear status updates on the power output and inverter operation, making it easy for users to monitor performance at a glance. Additionally, both models feature various safety protocols, including short circuit and over-temperature protection, to enhance operational safety.

Installation is straightforward, thanks to the provided mounting options and wiring accessories. The units are designed to withstand harsh environments, with durable casings that enhance longevity and resilience.

In summary, the Xantrex 1800 and 1000 models offer reliable power solutions for a variety of applications. Their combination of high-quality sine wave output, advanced safety features, and user-friendly operation makes them a top choice for anyone seeking dependable off-grid power. With Xantrex, users can trust that they are investing in products engineered for performance and durability in an ever-increasing range of power needs.