Xantrex Technology 815-2012, 815-3024, 815-3012, 815-2024 manual Calculations, Examples

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Freedom SW 3K2K InvChg Owners Guide.book Page 40 Wednesday, October 9, 2013 1:34 PM

Configuring the Freedom SW using the SCP

Charger settings in a Dual Freedom SW con-

(Charger #1 Actual output Amps) + (Charger #2 Actual output Amps) =

 

“System Total BULK output” Amps (for the stacked pair).

figuration

The Freedom SW2012 includes a 100 A charger. When using two stacked Freedom SW2012 inverter/chargers connected to the same battery bank, a total of 200 A of bulk charging is possible into that single common battery bank. For small battery banks and/or certain battery types this bulk mode current may be too high, therefore Freedom SW models include the “Battery Bank Capacity” and “Max Charge Rate” settings.

Battery Bank Capacity” is the bank’s total Amp-hour capacity, this is best determined by a qualified RV electrical technician, while the “Max Charge Rate” is determined by the battery manufacturer/type of battery model being used, i.e. Flooded, Gel, AGM being the most popular. For “Flooded” type battery bank, the preferred charger capacity (A)/battery bank capacity (Ah) is usually 10-15%C (C = Battery Bank Amp-hour capacity), however the max charge rate allowable is often accepted as 25% C, while some AGM or Gel battery models are higher (50% C or, in rare cases, up to 100% C). Do not exceed battery manufacturers recommended max charge specifications as resultant battery temperature rise will shorten battery life.

This “Total bulk output current” flows into the battery bank. As this total bulk current is split/distributed within the bank thru each individual parallel and/or series connected battery, the current each battery “sees” must not exceed each individual battery’s max allowed charge current as specified by the battery manufacturer. Since most battery banks are/should be constructed of the same battery type, model and length of interconnecting cables, current sharing is roughly equal through each parallel branch of battery(ies), therefore the above generalizations of “Max Charge Rate %” can be made for the entire bank.

The Freedom SW’s “Max Charge Rate(%)” setting is set to “100%” by default, but is adjustable 0-100%, therefore if the charger has max possible 100 A (as in the FSW2012), when set to Max Chg Rate of 100% FSW2012 is capable of delivering its full 100 A into the battery bank. However if this is too high, the installer/operator may reduce this % setting to suit the system battery type and bank requirements/limitations, to avoid overheating the battery bank. The user/installer is responsible for configuring the charger to ensure the battery manufacturer’s recommended max charge rate Amps is not exceeded for longest battery life and best performance.

Calculations

Once installed and configured, each Freedom SW charger calculates its own actual bulk charge current limit as follows:

(User selectable “Max Charge Rate” %) x (User selectable Battery Bank Ah capacity) = Actual maximum charger #1 output Amps in bulk mode (note: Limited to the Charger’s maximum capacity) then,

Examples

Example 1: In a system composed of two stacked FSW2012’s, industry commonly accepted practice suggests a typical Flooded battery bank of capacity (C) 400 Amp-hours should not be charged at a rate in excess of 25% of “C”. i.e. 25% x 400(Ah) = 100 Amps. Therefore, when configuring the two stacked Freedom SW chargers, each charger must be limited to contributing max 50 A into the common battery bank. This is accomplished

 

 

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Contents Sine Wave Inverter/Chargers Model NumbersPage Date and Revision Exclusion for DocumentationDocument Part Number Product NumbersScope About This GuidePurpose AudienceRelated Information Important Safety Instructions ReferenceFire and Burn Hazard Precautions When Working With Batteries Precautions When Preparing to Charge RegulatoryFCC Information to the User ViiiContents Page Page Page Introduction Materials ListKey Features Key Features ExplainedStacking Parallel StackingSeries Stacking Stack Charging Generator AssistBasic Protection Features System Components Xanbus SystemProduct/Accessory Not Shown Product Number/s Product/Accessory Shown above Product Number/sSystem Components Front Panel Controls Status LEDs Compartment Side Cooling FansFreedom SW Front and Side Panels Isometric View of the Front Panel and FansFreedom SW Freedom Inverter/Charger Operation Start Up BehaviorInverter Operation Using the Front Panel To operate in invert mode from the front panelFront Panel Lights Operating Limits for Inverter Operation Operating Limits for Charger Operation Operating the Freedom SW with the SCP Using the Xanbus SCP System Control Panel10 9 8 Func button 9 Down and Up arrow buttonsEnter button SCP Navigation Startup ScreenViewing the SCP Home Screens To display the Setup menu for a device To display the Select Device menuSoft Key Navigation Soft KeysFreedom SW System Status Screen Soft Key Navigation Viewing the Firmware Revision Number To view the F/W Rev. from the System Status screenTo view the firmware revision number Setting the Time and Date Using the STBY/ON Fault Clear ButtonReading the System Status Screen System Status ScreenReading the Freedom SW Device Setup Screen To view the Freedom SW Setup menu screenButton Device Setup Screen Status InformationLine Label FSW3012 00 Setup Pressed SimultaneouslyFreedom SW Device Setup Screen Operating States Modes Configuring the Freedom SW using the SCP System Menu Map SCP System Menu MapViewing the System Status Screen Viewing the Select Device MenuDevice Setup Menu Screen Selecting the Freedom SW from the Select Device MenuFreedom SW Device Setup Menu To select and change a configurable setting Selecting and Changing a Configurable SettingUsing Search Mode Configurable SettingsConfiguring the Freedom SW using the SCP Equalization Procedure To start equalizing the batteries, do one of the followingChanging Freedom SW Basic Settings To select the Basic Settings menu screen915W Setting Defaults and Ranges Basic SettingsCalculations ExamplesChanging Freedom SW Advanced Settings To select the Advanced Settings menu screen Advanced Settings is highlighted Freedom SW Owner’s GuideSelecting Advanced Settings From the Device Setup Screen Appears only when Equalize support is Enabled Menu Map of the Freedom SW Advanced Settings Inverter Settings Menu Inverter Settings DescriptionConfiguring the Freedom SW using the SCP Lbco Delay SettingsUsing the Low Battery Cut Out Search DelayCharger Settings Menu Battery Charger Functions Charger Settings Menu DescriptionCustom Battery Settings Menu Settings menuCustom Battery Settings Menu Description AC1 Lo Volt ACIn SettingsACIn Settings Menu Description FreqGEN Support Menu Description and Valuesa GenSup ModeGen Support GenSup AmpsStacking Configuration Menu Stacking Menu Description and Values aSetting the Device Name To customize the Freedom SW nameSetting the Device Number If Basic Settings appears instead of Advanced Settings onTo set the Freedom SW device number To restore Freedom SW default settings Resetting the Freedom SW to Default SettingsUsing the Advanced Features Restore Defaults command, press EnterCharge Algorithm Stages Battery Charging ReferenceBattery Types Three-Stage chargingThree-Stage Battery Charging Cycle Bulk StageAbsorption Stage Float StageTwo-Stage Charging Process Two-Stage Charging CycleBattery Charging Reference Equalize Charging Equalize ChargingBattery Charging Reference Troubleshooting General Troubleshooting GuidelinesResistive Loads Problem LoadsInverter Applications Motor LoadsFault Types Fault type BehaviorFault Types And Behaviors Troubleshooting the Freedom SW via the SCP Fault TypesFaults Types and Behaviors To view a fault list To view a warning listVoltage Fault MessagesAC Output under AC Output overF47 DC Under Voltage F44 Battery OverTemperature ImmediateFault F48 DC Under VoltageF49 DC Over Voltage F63 Power Board Temp F57 FET1 Over TemperatureF58 FET2 Over Temperature UnreadableF68 Transformer Over Temperature F69 External Sync FailedF64 AC overload F70 Unique Dev# NeededF85 PowerBoard Over F75 Master Inverter LostGenSup Mode setting W48 DC under voltageW69 AGS not connected Specifications Physical SpecificationsInverter Specifications Charger Specifications Freedom SWAll Models Regulatory ApprovalsPage Schneider Electric Solar Inverters USA Inc97-0019-01-01

815-2024, 815-2012, 815-3012, 815-3024 specifications

Xantrex Technology is a leading manufacturer of advanced power electronics, providing high-quality inverter solutions that cater to diverse applications. Among its impressive portfolio, the Xantrex models 815-3024, 815-3012, 815-2012, and 815-2024 stand out for their reliability and innovative features.

The Xantrex 815-3024 is a robust 3000W inverter designed for 24V systems. Its key feature is the True Sine Wave output, which delivers clean and stable power, making it suitable for sensitive electronics and appliances. It also incorporates an advanced inverter technology that optimizes efficiency and performance. Its compact design allows for easy installation in various setups, such as RVs, boats, and off-grid systems.

Similarly, the Xantrex 815-3012 model caters to 12V applications and offers a continuous output power of 3000W. This inverter excels at providing high surge capability, helping to start up demanding loads such as refrigerators and power tools. The 815-3012 also features an LCD display, which provides real-time data on power consumption, battery voltage, and inverter status, enhancing user experience and enabling proactive management of power usage.

The Xantrex 815-2012 is a 2000W inverter specifically designed for 12V systems. It shares many technological advancements with its higher-powered counterparts, including the True Sine Wave output. This makes it an ideal choice for users seeking a reliable and efficient power source for smaller loads. Additionally, the model includes built-in protection features such as overload, short circuit, and over-temperature safety measures, ensuring longevity and safe operation.

Lastly, the Xantrex 815-2024 offers similar capabilities but is tailored for 24V systems with a power output of 2000W. It is well-suited for applications where moderate power demand exists, such as solar setups and battery-based power solutions. Its compact form factor and lightweight design make it particularly appealing for mobile and temporary installations.

All of these models feature technologies that promote energy efficiency, including automatic low voltage shutdown and smart cooling systems. They boast protective features that ensure the safety and durability of the devices connected to them. With their blend of advanced technologies, reliable performance, and user-friendly interfaces, Xantrex’s 815 Series inverters provide an excellent solution for anyone in need of dependable power conversion.
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