Xantrex Technology Rs3000 User Manual

RS3000  
Operation Guide  
RS3000 Sine Wave Inverter/Charger  
RS3000 Sine Wave Inverter/Charger  
Operation Guide  
About Xantrex  
Xantrex Technology Inc. is a world-leading supplier of advanced power electronics and controls with products from  
50 watt mobile units to one MW utility-scale systems for wind, solar, batteries, fuel cells, microturbines, and backup  
power applications in both grid-connected and stand-alone systems. Xantrex products include inverters, battery  
chargers, programmable power supplies, and variable speed drives that convert, supply, control, clean, and distribute  
electrical power.  
Trademarks  
RS3000 Sine Wave Inverter/Charger is a trademark of Xantrex International. Xantrex and Xanbus are registered  
trademarks of Xantrex International.  
Other trademarks, registered trademarks, and product names are the property of their respective owners and are used  
herein for identification purposes only.  
Notice of Copyright  
RS3000 Sine Wave Inverter/Charger Operation Guide © December 2004 Xantrex International. All rights reserved.  
Disclaimer  
UNLESS SPECIFICALLY AGREED TO IN WRITING, XANTREX TECHNOLOGY INC. (“XANTREX”)  
(a) MAKES NO WARRANTY AS TO THE ACCURACY, SUFFICIENCY OR SUITABILITY OF ANY  
TECHNICAL OR OTHER INFORMATION PROVIDED IN ITS MANUALS OR OTHER DOCUMENTATION.  
(b) ASSUMES NO RESPONSIBILITY OR LIABILITY FOR LOSS OR DAMAGE, WHETHER DIRECT,  
INDIRECT, CONSEQUENTIAL OR INCIDENTAL, WHICH MIGHT ARISE OUT OF THE USE OF SUCH  
INFORMATION. THE USE OF ANY SUCH INFORMATION WILL BE ENTIRELY AT THE USER’S RISK.  
Date and Revision  
December 2004 Rev B  
Part Number  
975-0170-01-01  
Contact Information  
Telephone: 1 800 670 0707 (toll free North America)  
1 360 925 5097 (direct)  
Fax:  
1 800 994 7828 (toll free North America)  
1 360 925 5143 (direct)  
Email:  
Web:  
www.xantrex.com  
About This Guide  
Purpose  
The RS3000 Sine Wave Inverter/Charger Operation Guide provides  
explanations and procedures for operating, configuring, and  
troubleshooting the RS3000 Sine Wave Inverter/Charger (RS3000).  
Scope  
The guide provides safety guidelines and information about operating,  
configuring, and troubleshooting the unit. It does not include information  
for installing the inverter/charger. Refer to the RS3000 Sine Wave  
Inverter/Charger Installation Guide.  
The guide also provides general guidelines on batteries; it does not  
provide details about particular brands of batteries. You need to consult  
individual battery manufacturers for this information.  
Audience  
The guide is intended for users who need to configure and operate the  
RS3000 Sine Wave Inverter/Charger.  
Organization  
This guide is organized into four chapters and three appendixes.  
Chapter 1, “Introduction”, outlines the main performance and safety  
features of the RS3000 Sine Wave Inverter/Charger. Reading this chapter  
will give you a clear understanding of the inverter/charger’s capabilities.  
Chapter 2, “Operation”, provides information about operating the  
RS3000. Details are provided on how to read the front panel indicators to  
monitor the RS3000.  
Chapter 3, “Configuration”, explains how to configure the RS3000 from  
the control panel.  
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iii  
About This Guide  
Chapter 4, “Troubleshooting”, explains how to identify and solve  
problems that can occur with the RS3000.  
Appendix A, “Specifications”, provides electrical, physical, and  
performance specifications for the inverter/charger.  
three-stage charging, two-stage charging, and charging times.  
Appendix C, “Terminology”, provides a glossary and a listing of  
commonly used abbrevations and acronyms.  
“Warranty and Return Information” provides the product warranty,  
explains how to return a product for service, and describes what to  
prepare for a call to Xantrex Customer Service.  
Conventions Used  
The following conventions are used in this guide.  
WARNING  
Warnings identify conditions or practices that could result in personal injury or  
loss of life.  
CAUTION  
Cautions identify conditions or practices that could result in damage to the  
RS3000 or other equipment.  
Important: Important notes provide information that is important for you  
to know. They are not as critical as Cautions or Warnings.  
iv  
975-0170-01-01  
About This Guide  
Symbols Used  
The following symbols are used on the product labels or in this guide.  
In this guide: Important information, warnings or cautions.  
!
On the product: Important information, warnings or cautions with  
further explanation in the product guides.  
AC – Alternating current  
"
DC – Direct current  
#
Warning: Hot surface. Do not touch.  
$
DC ground connection point  
%
AC safety ground connection point from incoming AC source  
&
AC safety ground connection point for AC output (to AC loads)  
'
Related Information  
For related materials on this product and its available accessories, see:  
RS3000 Sine Wave Inverter/Charger Installation Guide (975-0171-01-01)  
System Control Panel Owners Guide (975-0083-01-01)  
Automatic Generator Start Owners Guide (975-0082-01-01)  
Xanbus System Installation Guide (975-0136-01-01)  
More information about Xantrex Technology Inc. as well as its products  
and services, including a complete list of Xanbus-enabled devices, is  
available at www.xantrex.com  
Contact Information  
Telephone: 1 800 670 0707 (toll free North America)  
1 360 925 5097 (direct)  
Fax:  
1 800 994 7828 (toll free North America)  
1 360 925 5143 (direct)  
Email:  
Web:  
www.xantrex.com  
975-0170-01-01  
v
           
vi  
Important Safety Instructions  
READ AND SAVE THESE INSTRUCTIONS  
The RS3000 Sine Wave Inverter/Charger Operation Guide contains  
important safety instructions.  
Before you install and use your RS3000 Sine Wave Inverter/Charger, be  
sure to read, understand and save these safety instructions and those in the  
other product guides.  
Read all instructions and cautionary markings on the Inverter/Charger, the  
batteries and all appropriate sections of this guide.  
WARNING: Risk of injury or loss of life  
The RS3000 Sine Wave Inverter/Charger shall not be used in connection with life  
support systems or other medical equipment or devices.  
WARNING  
The following warnings identify conditions or practices that could result in  
personal injury or loss of life.  
1. Use of accessories not recommended or sold by Xantrex Technology,  
Inc. may result in a risk of fire, electric shock, or injury to persons.  
2. The Inverter/Charger is designed to be permanently connected to your  
AC and DC electrical systems. Xantrex recommends that all wiring  
be done by a certified technician or electrician to ensure adherence to  
the local and national electrical codes applicable in your application.  
3. To avoid a risk of fire and electric shock, make sure that existing  
wiring is in good condition and that wire is not undersized. Do not  
operate the Inverter/Charger with damaged or substandard wiring.  
4. To reduce risk of damage and injury, charge only rechargeable  
lead-acid batteries (flooded, gel, or absorbed glass mat (AGM) types).  
Other types of batteries may burst, causing personal injury and  
damage.  
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vii  
     
Safety  
5. Do not operate the Inverter/Charger if it has received a sharp blow,  
been dropped, or otherwise damaged in any way. If the unit is  
RS3000 Sine Wave Inverter/Charger Operation Guide.  
6. Do not disassemble the Inverter/Charger; it does not contain user  
serviceable parts. Take it to a qualified service person when service or  
repair is required. Incorrect reassembly may result in a risk of  
electrical shock or fire. Internal capacitors remain charged after all  
power is disconnected. For instructions on obtaining service, see the  
Inverter/Charger Operation Guide.  
7. Do not expose the Inverter/Charger to rain, snow, or water.  
8. To reduce risk of electric shock, disconnect all sources of AC and DC  
power from the Inverter/Charger before attempting any maintenance  
or cleaning. Turning off controls will not reduce this risk.  
9. The Inverter/Charger must be provided with equipment grounding  
conductors connected to the AC input ground and chassis ground  
terminals.  
CAUTION  
Cautions identify conditions or practices that could result in damage to the unit or  
other equipment.  
To reduce the risk of overheating, keep the ventilation openings clear and  
do not install the Inverter/Charger in a compartment with limited airflow  
or inadequate clearances around the unit. Refer to the RS3000 Sine Wave  
Inverter/Charger Installation Guide for required clearance.  
viii  
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Safety  
Explosive Gas Precautions  
WARNING: Risk of explosive gases  
Working in vicinity of a lead-acid battery is dangerous. Batteries generate  
explosive gases during normal battery operation. For this reason, it is of utmost  
importance that you must read this guide and follow its instructions closely each  
time before you service equipment in the vicinity of the battery.  
1. To reduce risk of battery explosion, follow these instructions and  
those published by the battery manufacturer and manufacturer of any  
equipment you intend to use in the vicinity of the battery. Review  
cautionary markings on these products and on the engine.  
2. This equipment contains components which tend to produce arcs or  
spark. To prevent fire or explosion, do not install the inverter/charger  
in compartments containing batteries or flammable materials or in  
locations that require ignition-protected equipment. This includes any  
space containing gasoline-power machinery, fuel tanks, as well as  
joints, fittings, or other connections between components of the fuel  
system.  
Personal Precautions When Working With Batteries  
1. Someone should be within range of your voice or close enough to  
come to your aid when you work near a lead-acid battery.  
2. Have plenty of fresh water and soap nearby in case battery acid  
contacts your skin, clothing, or eyes.  
3. Wear complete eye protection and clothing protection. Avoid  
touching your eyes while working near batteries.  
4. If battery acid contacts your skin or clothing, wash immediately with  
soap and water. If acid enters your eye, immediately flood the eye  
with running cold water for at least ten minutes and get medical  
attention immediately.  
5. Never smoke or allow a spark or flame in the vicinity of the battery or  
the engine.  
6. Be extra cautious to reduce risk of dropping a metal tool onto battery.  
It might spark or short-circuit the battery or other electrical parts that  
may cause explosion.  
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ix  
Safety  
7. Remove personal metal items such as rings, bracelets, necklaces, and  
watches when working with a lead-acid battery. A lead-acid battery  
can produce a short-circuit current high enough to weld a ring or the  
like to metal, causing a severe burn.  
8. Never charge a frozen battery.  
9. If necessary to remove the battery, always remove the grounded  
terminal from the battery first. Make sure all accessories are off, so as  
not to cause an arc.  
10. Be sure area around battery is well ventilated.  
11. Clean battery terminals. Be careful to keep corrosion from coming in  
contact with your eyes.  
12. Study all battery manufacturer’s specific precautions such as  
removing or not removing cell caps while charging and recommended  
rates of charge.  
13. For refillable (flooded) batteries, add distilled water in each cell until  
the battery acid reaches the level specified by the battery  
manufacturer. This helps to purge excessive gas from cells. Do not  
overfill. Carefully follow manufacturer’s recharging instructions.  
FCC Information to the User  
This equipment has been tested and found to comply with the limits for a  
Class B digital device, pursuant to part 15 of the FCC Rules. These limits  
are designed to provide reasonable protection against harmful  
interference when the equipment is operated in a residential environment.  
This equipment generates, uses and can radiate radio frequency energy  
and, if not installed and used in accordance with the instruction guide,  
may cause harmful interference to radio communications. However, there  
is no guarantee that interference will not occur in a particular installation.  
If this equipment does cause harmful interference to radio or television  
reception, which can be determined by turning the equipment off and on,  
the user is encouraged to try to correct the interference by one or more of  
the following measures:  
Reorient or relocate the receiving antenna.  
Increase the separation between the equipment and the receiver.  
Connect the equipment into an outlet on a circuit different from that  
to which the receiver is connected.  
Consult the dealer or an experienced radio/TV technician for help.  
x
975-0170-01-01  
 
Contents  
Important Safety Instructions - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -vii  
About the RS3000 Sine Wave Inverter/Charger - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–2  
How RS3000 Works - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–3  
RS3000 Features - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–7  
Operating the RS3000 with the System Control Panel - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–2  
Using the System Control Panel- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–3  
Monitoring the RS3000 Indicator Lights - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–13  
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xi  
Contents  
Monitoring Status Messages on the System Control Panel- - - - - - - - - - - - - - - - - - - - - - - - - - -2–14  
Selecting the RS3000 from the Select Device Menu - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–5  
Selecting the RS3000 Basic Menu - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–5  
Selecting the RS3000 Advanced Menu - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–6  
Returning to RS3000 Basic Menu - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–7  
RS3000 Menu Structure - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–9  
RS3000 Device Menu - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -3–10  
RS3000 Menu (Basic) - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -3–12  
RS3000 Menu (Advanced)- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -3–18  
xii  
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Contents  
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xiii  
Contents  
Warranty and Return Information - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - WA–1  
Index - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - IX–1  
xiv  
975-0170-01-01  
Figures  
Figure 1-2 Front Panel of the RS3000 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–7  
Figure 2-1 System Control Panel - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–3  
Figure 3-2 RS3000 Float System Screen (Example)- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–4  
Figure 3-4 RS3000 Menu in Invert Mode - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–5  
Figure 3-7 Returning to RS3000 Basic Menu - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–7  
Figure 3-8 RS3000 Menu Structure — Overview - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–9  
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xvi  
Introduction  
1
Congratulations on your purchase of the RS3000 Sine Wave  
Inverter/Charger.  
The RS3000 has been designed to give you premium power,  
ease of use, and outstanding reliability.  
Please read this chapter to familiarize yourself with the main  
performance and protection features of the RS3000.  
     
Introduction  
About the RS3000 Sine Wave Inverter/Charger  
The RS3000 Sine Wave Inverter/Charger is a convenient combination of  
an inverter, multistage battery charger, and transfer switch in one  
electronic device.  
As an inverter, the RS3000 provides sine wave power for your  
microwave, entertainment system, computer, and other loads. This  
power is identical to the AC source provided from the utility grid  
(power company).  
Some of the benefits of sine wave power include consistent cooking  
in your microwave, handling of sensitive loads such as your TV set,  
dimmer switches, and appliances with speed controls.  
As a 150 amp power-factor corrected charger, the RS3000 quickly  
and efficiently recharges your batteries.  
Unique split phase design transfers up to 12 kVA of incoming  
qualified AC power.  
Premium Power and Ease of Use  
For managing your onboard power system, the RS3000 provides superior  
features and rugged durability combined with ease of use:  
3000 watt inverter/charger with 7500 watt surge for 5 seconds  
Three-stage charge with 150 amps of output and charge formulas for  
flooded, gel, and AGM deep cycle batteries plus equalization for  
flooded batteries  
Sine wave output powers sensitive entertainment electronics  
Split phase input transfers two legs of 50 amps to make full use of  
available AC power  
Easy-to-read indicator lights on the front panel  
Automatic cooling fans  
Power sharing reduces charging current to prevent tripping of AC  
input breaker.  
1–2  
975-0170-01-01  
   
Introduction  
How RS3000 Works  
The RS3000 is designed to:  
invert  
charge  
accept both split phase and dual input. See “Glossary” on page C–2  
for a definition of these terms.  
With AC input available from the utility grid or a generator, power is  
passed through the RS3000 Sine Wave Inverter/Charger to operate  
connected AC loads. The remaining AC power not used by loads is  
converted to DC power and used to charge batteries.  
If AC input power becomes disconnected, fails, or falls out of  
specification and is no longer qualified as good AC, a quick transfer takes  
place and the RS3000 begins converting DC power from the batteries into  
AC power, to continue to supply power to the AC loads.  
Inverting  
The RS3000’s inverting function:  
produces 120 volts AC from your batteries  
delivers 3000 watts of power on a continuous basis and 7500 watts of  
surge power to start loads like pumps and refrigerators.  
To prevent power being drawn needlessly from the batteries, the RS3000  
has included the load sensing feature.  
Load Sense Mode To reduce battery draw, you can turn on Load Sense  
mode with the System Control Panel. In Load Sense mode, the inverter  
periodically sends out a search pulse to see whether a load is present. If it  
finds a load, the inverter/charger will turn on. If no load is found, then the  
inverter continues in Load Sense mode, which reduces the inverter draw  
from the battery to a minimum.  
In Load Sense mode, there’s a short delay—up to the interval you’ve  
set—between the time you turn on a load and the time the inverter/charger  
delivers power. Load Sense mode can be disabled at any time if you find  
the delay to be inconvenient.  
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1–3  
           
Introduction  
Charging  
The RS3000’s charging function:  
produces 150 amps to charge your batteries  
equalizes flooded, lead acid batteries.  
Built-in Charge Formulas For the unit to perform at the highest level,  
the batteries must be charged correctly. The RS3000 has optimized  
algorithms for flooded, gel, and AGM batteries.  
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 charged, but not overcharged. For this reason,  
Xantrex® has included a battery temperature sensor with your RS3000  
and has temperature compensated the charge formula.  
Manual Equalization Over a period of time, the cells in a flooded  
battery can develop uneven chemical states. This can result in a weak  
(undercharged) cell which, in turn, can reduce the overall capacity of the  
battery. To improve the life and performance of a non-sealed, flooded  
battery, the RS3000’s multi-stage charging cycle includes a manual  
equalize mode that can be used, if recommended by the battery  
manufacturer.  
Dead Battery Charging Another feature that the RS3000 includes is  
dead battery charging. The RS3000—unlike many chargers—has the  
ability to recharge batteries even if the battery voltage is very low.  
Load Management The RS3000 has a built-in transfer relay that  
connects your inverter output or AC input from the utility grid or  
generator to your loads. Because the usual AC power sources such as  
campground outlets or small generators often have limited current  
availability, having the capability to manage your AC loads is extremely  
valuable. The RS3000 provides a number of features to facilitate this:  
The charger is power factor corrected to use AC current as efficiently  
as possible and only requires 22 amps to provide rated charger output.  
Minimizing the AC current used by the charger means more current is  
available for your AC loads.  
RS3000 has a power share feature which prioritizes your AC loads by  
reducing the charge current and maintaining the total input current to  
less than your breaker setting or the breaker setting.  
Occasionally, AC input sources have low voltage. To avoid loading  
these weak sources any further, the charger automatically reduces its  
AC current draw as the AC voltage approaches the minimum  
acceptable level.  
1–4  
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Introduction  
Xanbus System  
The Xanbus® system includes the RS3000 and other Xanbus-enabled  
devices. The RS3000 is the device in a Xanbus system that typically  
provides network power—800 mA at 15 volts DC. All of the Xanbus-  
enabled devices, such as the RS3000, the System Control Panel (SCP),  
and the Automatic Generator Start (AGS) are able to communicate their  
settings and activity to each other. See Figure 1-1.  
AC Out  
AC In  
Figure 1-1 Typical Xanbus System Diagram  
Xanbus Enabled  
The Xanbus-enabled designation means that this product works on a  
Xanbus network. Xanbus-enabled products are:  
Easy to use. The Xanbus network simplifies operation and automates  
routine tasks.  
Reliable. Software control eliminates analog signalling errors.  
Accurate. Digital information is less susceptible to interference and  
line loss.  
Upgradeable. Software upgrades mean your purchase will remain up  
to date.  
For detailed instructions and a complete list of Xanbus-enabled devices,  
visit www.xantrex.com  
975-0170-01-01  
1–5  
           
Introduction  
Comprehensive Electronic Protection  
RS3000 is approved to meet a number of safety standards including  
UL 458 and CSA C22.2 No. 107.1. See “Regulatory Approvals” on  
page A–5 for more information.  
RS3000 is equipped with numerous protection features to ensure safe  
operation.  
Protection feature  
This feature…  
Battery over-voltage  
protection  
Keeps the battery voltage from getting too high in  
charge mode. Shuts the inverter off in invert mode.  
Battery under-voltage  
protection  
Prevents inverter from discharging your batteries  
too low. The inverter doesn’t run if battery voltage is  
too low.  
Over-temperature  
protection  
Protects the unit from overheating by either derating  
(charge mode) or by shutting down (invert mode).  
Automatic overload  
protection  
Protects the unit from excessive loads. The unit will  
provide 7500 watts (2.5 times of the rated load) for  
up to 5 seconds, and then protect itself by shutting  
for more information.  
Short circuit protection Protects the unit by shutting it down.  
1–6  
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Introduction  
RS3000 Features  
Front Panel Features  
Before you begin to operate the RS3000, review the front panel features  
lights and buttons on the front panel is shown in Figure 1-3 and described  
in Table 1-2.  
4
2
2
3
3
1
2
2
Figure 1-2 Front Panel of the RS3000  
Table 1-1 Front Panel Features  
Feature  
Description  
1
AC wiring compartment access panel provides access to the terminal block for  
wiring the AC input and AC output.  
2
AC knockouts provide access for AC input and AC output wiring. A total of four  
knockouts are provided on the unit: two on the front and one on each side (not  
shown).  
3
4
Mounting flanges are used for mounting the unit. A total of six flanges are  
provided on the unit.  
Fans are located on the top of the unit and the bottom of the unit.  
Top external fan is an intake fan that activates when the internal temperature of  
the inverter/charger increases. The fan speed varies with the internal temperature  
and turns off when the inverter/charger cools down. (This internal temperature  
may be caused by heat in the inverter/charger or by high ambient temperature.)  
Top internal fan (not shown) is an exhaust fan and runs continuously if the unit is  
inverting or charging.  
Bottom internal fan (not shown) is an exhaust fan and runs continuously if the  
unit is inverting or charging.  
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1–7  
                     
Introduction  
5
4
3
7
2
11  
12  
1
6
8
9
10  
13  
Figure 1-3 Front Panel Lights and Buttons  
Table 1-2 Description of Front Panel Lights and Buttons  
Feature Description  
1
External AC light illuminates when you are connected to an AC source like the utility grid or  
a generator and the AC is qualified.  
2
3
4
5
6
Inverter ON light illuminates when the RS3000 is operating in invert mode.  
Low Battery light illuminates when the battery voltage is low.  
Network light illuminates when there is activity on the network.  
Fault light illuminates if a fault condition occurs.  
Charger ON light illuminates when the RS3000 is in charge mode and is producing DC output  
to charge your batteries.  
7
Bulk light illuminates when the charger is in the bulk stage of battery charging.  
Absorption light illuminates when the charger is in the absorption stage of battery charging.  
Float light illuminates when the charger is in the float stage of battery charging.  
Equalize light illuminates when the unit is equalizing the batteries.  
8
9
10  
11  
Charger Enable button toggles between enable (On) and disable (Off). The Charge Enable  
button illuminates when the charger is enabled and it can produce DC output to charge your  
batteries. When the charger is disabled, it does not produce DC output to charge your batteries,  
but still passes AC input through to AC loads (if present).  
12  
13  
Inverter Enable button toggles between enable (On) and disable (Off). The Inverter Enable  
button illuminates when the inverter is enabled and it can produce AC output to run your AC  
loads. When the inverter is disabled, it does not produce AC output to run your loads.  
Reset button is used for several functions: to reset after a fault, to perform a power on reset, to  
wake the RS3000 from Power Save mode or Hibernate mode. See “Operating in Invert Mode”  
on page 2–6 for a description of the different modes.  
1–8  
975-0170-01-01  
       
Introduction  
Side Panel Features  
CAUTION: Equipment Damage  
Connect only to other Xanbus compatible devices.  
Although the cabling and connectors used in this network system are the same as  
Ethernet connectors, this network is not an Ethernet system. Equipment  
damage may result from attempting to connect two different systems.  
For your reference, the side panel features with all connections completed  
is shown in Figure 1-4.  
1
7
8
9
2
3
5
6
4
Figure 1-4 Completed Connections on Side Panel  
Table 1-3 Description of Side Panel Features  
Feature Description  
1
AC knockout provides access for AC input and AC output wiring (shown with strain-relief  
clamp installed). There are four knockouts on the unit: two on the front and two on the side.  
2, 5, 9  
3
Mounting flanges are used for mounting the unit. A total of six flanges are on the unit.  
Battery temperature sensor jack provides connection for the battery temperature sensor.  
975-0170-01-01  
1–9  
               
Introduction  
Table 1-3 Description of Side Panel Features  
Feature Description  
4
Dual network jacks provide connection for network-enabled devices. (The number of  
connections depends on your layout. Your connections may not be the same as shown here.)  
6
Chassis ground point connects the chassis of the RS3000 to your system’s chassis grounding  
point.  
7 & 8  
DC terminals – negative (black) (7) and positive (red) (8) —shown here with DC covers on.  
1–10  
975-0170-01-01  
         
Introduction  
DC Terminal Covers and Battery Temperature Sensor  
DC Terminal Covers  
Two covers are supplied to prevent accidental contact with the cabling  
connectors after installation. The red cover is for the positive cabling  
terminal, and the black cover is for the negative cabling terminal.  
Figure 1-5 Battery Terminal Covers  
Battery Temperature Sensor  
The battery temperature sensor continuously measures the temperature of  
the battery and adjusts the charger output for a more accurate,  
temperature-compensated charge.  
3
2
1
Figure 1-6 Battery Temperature Sensor  
Table 1-4 Description of Battery Temperature Sensor Features  
Feature  
Description  
1
Sensor can be mounted on the side of the battery case or on the  
negative battery terminal.  
2
3
Sensor cable is 25 feet (7.6 meters).  
Connector plugs into the Battery Temp. jack (battery  
temperature sensor) on the RS3000.  
975-0170-01-01  
1–11  
               
Introduction  
System Accessories and Network Components  
System accessories can be used with the RS3000 in a Xanbus system. The  
System Control Panel (SCP) provides configuration and monitoring  
capability for Xanbus-enabled devices such as the RS3000. Automatic  
Generator Start (AGS) automatically starts and stops your generator.  
Table 1-5 provides the part numbers for the system accessories.  
Table 1-5 System Accessories  
Accessory  
Part number  
809-0910  
System Control Panel (SCP)  
Automatic Generator Start (AGS)  
809-0915  
Consult with your local system designer to determine what network  
components will be needed for your specific installation. Table 1-6  
provides a list of network components and part numbers. Pre-made cables  
are available in standard lengths ranging from 3 feet to 75 feet.  
Table 1-6 Network Components and Part Numbers  
Network Component  
Part Number  
809-0901  
809-0903  
809-0905  
809-0935  
809-0936  
809-0937  
809-0938  
809-0939  
809-0940  
809-0941  
809-0942  
Network termination — Male (2 per pack)  
3-way network connector  
Network termination — Female (2 per pack)  
Network cable 3 ft. (0.9 m)  
Network cable 5 feet (1.5 m)  
Network cable 7 feet (2.0 m)  
Network cable 10 feet (3.0 m)  
Network cable 14 feet (4.3 m)  
Network cable 25 feet (7.6 m)  
Network cable 50 feet (15.2 m)  
Network cable 75 feet (22.9 m)  
These accessories and network components are available from any  
authorized Xantrex dealer or at www.xantrex.com. Detailed information  
on planning and installing your network is available in the Xanbus System  
Installation Guide. This guide is available for downloading at  
www.xantrex.com  
1–12  
975-0170-01-01  
   
Operation  
2
Chapter 2, “Operation” contains detailed information and  
procedures for using your RS3000.  
If you’re using the System Control Panel to operate or monitor  
the status of the unit, also refer to the System Control Panel  
Owners Guide.  
WARNING: Restrictions on use  
RS3000 Sine Wave Inverter/Charger shall not be used in connection with life  
support systems or other medical equipment or devices.  
CAUTION  
Read this chapter before operating the RS3000 Sine Wave Inverter/Charger.  
     
Operation  
Operating the RS3000 with the System Control Panel  
The System Control Panel (SCP) provides operating, configuration, and  
monitoring capability for your Xanbus system.  
The System Control Panel:  
Monitors activity throughout your onboard power system.  
Displays the latest information about your inverter/charger, battery  
charge level, battery charge output, and generator start and stop  
activity.  
Displays the settings for each Xanbus-enabled device in the system.  
Enables you to adjust the settings for each Xanbus-enabled device in  
the system.  
Preserves all of its settings if system power is interrupted. After  
power is restored, you don’t have to reconfigure the SCP or any of the  
Xanbus-enabled devices connected to it.  
This section provides information on operating the RS3000 with the  
System Control Panel. Please refer to the System Control Panel Owners  
Guide for complete information on using the System Control Panel.  
Important: Any RS3000 setting changed from the System Control Panel will  
be saved in the SCP if the unit is shut down by selecting Power Save mode, Safe  
mode or Hibernate mode. See “Operating in Invert Mode” on page 2–6 for more  
information about the different types of modes.  
2–2  
975-0170-01-01  
   
Operation  
Using the System Control Panel  
The System Control Panel has important features which you’ll want to be  
familiar with, as shown in Figure 2-1.  
Display screen  
Indicator lights  
Push buttons  
System information is shown on the display screen with an adjustable  
backlight.  
Four indicator lights on the front panel indicate the operating status of the  
Xanbus system.  
Four push buttons allow you to select device menus and change or display  
settings. The red System button toggles the System Control Panel and  
Xanbus-enabled devices between Operating mode and Power Save mode.  
For more information on the different system modes, see “Operating in  
9
1
2
3
4
10  
8
6
7
5
Figure 2-1 System Control Panel  
Table 2-1 System Control Panel Features and Buttons  
Feature Description  
1
AC In/Charge light indicates that qualified AC is present at  
the input of an inverter/charger. When the RS3000 is  
connected to a qualified AC source like the utility grid or a  
generator, this light on the System Control Panel illuminates.  
2
3
Inverter On light illuminates when the RS3000 is enabled  
(turned on).  
Low Battery light illuminates when the battery voltage on the  
RS3000 is low.  
975-0170-01-01  
2–3  
         
Operation  
Table 2-1 System Control Panel Features and Buttons  
Feature Description  
4
Fault light indicates a condition that requires user attention  
and intervention. The Fault light illuminates when any  
Xanbus-enabled device connected to the network is in fault.  
fault and warning.  
5
6
7
8
9
Enter button  
Confirms selection of a menu item.  
Moves you to the next screen.  
Up arrow button  
Scrolls up one line of text.  
Increases a selected value.  
Down arrow button  
Scrolls down one line of text.  
Decreases a selected value.  
Exit button  
Cancels selection of a menu item.  
Returns you to the previous screen.  
System button:  
Toggles all Xanbus-enabled devices on the system between  
10  
Screen displays menus, settings, and system information.  
On Start Up  
When the RS3000 is powered up or has been reset, all of the front panel  
lights illuminate and remain on for a minimum of five seconds. After five  
seconds, the lights remain illuminated until the front panel has status  
information for all the lights.  
The RS3000 is disabled every time the unit is powered up. The inverter  
must then be enabled. When a function is disabled, it is not allowed to  
occur and if it is occurring, it is terminated. Regardless of other  
conditions, the function will not be activated. For example, even if AC  
power is present, if the charger is disabled, the unit will not charge.  
When a function is enabled, it is allowed to occur but other conditions  
may have to be met before the function is activated or turned on. For  
example, the charger function on the RS3000 may be enabled, but it will  
not charge unless qualified AC power is present.  
2–4  
975-0170-01-01  
       
Operation  
System Start-up Check  
WARNING  
inverter/charger.  
To test inverting and charging from the RS3000 front panel:  
1. Disconnect AC power from inverter input by opening the breaker or  
disconnect. Press the Inverter Enable button on the RS3000. The  
Inverter On light illuminates.  
2. Place a load on the inverter. For example, plug a 100 watt light bulb  
into an outlet that the inverter is powering and make sure it works.  
The inverter should run the load using battery power.  
3. To test the charger, reconnect the AC input power to allow AC to the  
AC input. The Charger On light should illuminate after a brief delay.  
Any AC loads previously powered by the inverter will also work at  
this time.  
4. Remove the AC input power. The inverter/charger should transfer to  
invert mode immediately. (The transfer relay will make a clicking  
sound and the Inverter On light will illuminate.) Loads should  
continue to operate uninterrupted.  
If any part of this test fails, determine the cause before using the unit.  
Consult the “Troubleshooting” chapter starting on page 4–1.  
Viewing the Firmware Revision Number  
You may need to view the firmware revision number of the RS3000 when  
troubleshooting the unit with authorized service personnel.  
To view the firmware revision number:  
1. On the Select Device menu, use the down arrow button to highlight  
System and press Enter.  
The System Settings menu appears.  
2. Press the down arrow button to highlight View Device info and press  
Enter.  
The Device Info screen appears.  
3. Press the down arrow button until the RS3000 screen appears.  
The number opposite “F/W Rev.” is the firmware revision number.  
4. Press Exit to return to the System Settings menu.  
975-0170-01-01  
2–5  
       
Operation  
Operating in Invert Mode  
WARNING  
inverter/charger.  
Once the inverter/charger is installed, you can operate it in invert mode.  
To operate in invert mode from the front panel:  
1. Press the Inverter Enable button on the RS3000.  
2. If external AC is present, the External AC light illuminates. If AC is  
present and you want to operate the inverter, remove AC so the  
inverter turns on.  
Once the Inverter On light is on, the RS3000 inverter is ready to  
deliver AC power to the loads.  
To operate the inverter with the System Control Panel, refer to  
Important: If you are having problems with any of your loads, refer to  
Load Sense Mode  
The load sense mode of the RS3000 reduces battery power consumption  
in order to conserve battery capacity.  
When the inverter is enabled, the inverter/charger can be configured to  
search for an acceptable AC load. (It does this when you enable (turn on)  
“Load Sense” on the RS3000 Advanced Menu on the System Control  
Panel and set the load sense power threshold “Sense Below.”)  
The inverter output turns off if the unit doesn’t detect a load that meets the  
load sense parameters. When the load sense feature is disabled (turned  
off), the inverter is continuously on. When an acceptable load is detected,  
the inverter output is turned on and provides continuous output power.  
The unit will “sleep” if it doesn’t detect a load that meets the load sense  
parameters. If a load exceeds the “Sense Below” threshold set in the  
RS3000 advanced menu, the RS3000 will “wake up” and deliver full  
power to the load.  
2–6  
975-0170-01-01  
         
Operation  
Operating Limits for Inverter Operation  
Power Output  
Temperature  
The continuous output rating for the RS3000 is 3000 watts or 25 amps at  
120 volts AC. The RS3000 can deliver this power in an ambient  
(surrounding) temperature up to 122 °F (50 °C). In higher ambient  
temperatures, if the loads draw full power for an extended period of time,  
the unit may shut down to protect itself against overheating.  
As with all inverters, the amount of continuous power that the RS3000  
can deliver without overheating is limited by the ambient air temperature.  
The RS3000 will operate and deliver its continuous power rating at higher  
temperatures, but the ambient temperature as well as the input voltage  
from the battery will limit the extent to which the unit can run  
continuously.  
The RS3000 has 7500 watt surge for five seconds. Operating the  
inverter/charger in conditions outside of power and temperature limits,  
however, will result in thermal shutdown and/or significantly decreased  
performance. In addition, operation in this range is outside the ratings  
covered by the regulatory approvals of the product. See “Invert Power  
Difficulty on  
starting loads  
The inverter/charger should be able to operate all AC loads rated at or  
below its power rating. Some high horsepower induction motors used in  
pumps and other motor-operated equipment require very high surge  
currents to start, and the inverter/charger may have difficulty starting  
If you have problems starting certain loads, ensure that:  
the battery connections are tight and clean  
the DC cabling is no longer than the recommended length. Refer to  
the RS3000 Sine Wave Inverter/Charger Installation Guide for this  
information.  
the AC wiring is of recommended size. Refer to the RS3000 Sine  
Wave Inverter/Charger Installation Guide for this information.  
the battery is of sufficient capacity and is fully charged.  
975-0170-01-01  
2–7  
     
Operation  
Operating in Charger Mode  
WARNING: Explosive Gases  
inverter/charger. During charging, batteries may generate explosive gases.  
Thoroughly ventilate the areas around the batteries and ensure that there are no  
sources of flames or spark in the vicinity.  
Study all battery manufacturer’s precautions such as removing or not removing  
cell caps while charging and the recommended rates of charge.  
Important: If you are charging a non-sealed battery, ensure there is sufficient  
distilled water in each cell. The battery acid should be at the level specified by  
the battery manufacturer. This helps prevent over-heating and purges excessive  
gases from the cells. Do not overfill. For a battery without cell caps, follow the  
manufacturer’s recharging instructions carefully.  
To operate the RS3000 in charger mode from the front panel:  
1. Connect AC input power.  
The charger automatically starts up when qualified AC power is  
connected if the charger is enabled, or the charger is disabled but the  
Force Charge enable override is On. See “Force Charge” on page 3–  
23.  
The batteries are charged according to the two-stage or three-  
stage formula you have selected on the System Control Panel.  
information on two-stage or three-stage charging.)  
You can interrupt the charge cycle any time you desire by  
disabling the charger from the System Control Panel or by  
pressing the Charger Enable button (on the front panel of the  
RS3000) so it is no longer illuminated.  
To maintain optimal performance in flooded batteries, an  
occasional equalize cycle may be required. See “Operating in  
While the batteries are being charged, you can monitor which  
stage they are in from the front panel of the RS3000 or from the  
System Control Panel.  
To operate the charger with the System Control Panel, refer to  
2–8  
975-0170-01-01  
 
Operation  
Charger Operation with 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 charged, but  
not overcharged. For this reason, Xantrex has included a battery  
temperature sensor (see Figure 2-2) with your RS3000 Sine Wave  
Inverter/Charger and has temperature compensated the charge formula.  
The battery temperature sensor continuously measures the temperature of  
the battery and adjusts charger output for a more accurate, temperature-  
compensated charge.  
When batteries are cold, their chemical reaction is sluggish, meaning they  
don’t absorb charge as easily. Thus a charge level optimized for room  
temperature will not charge the batteries sufficiently if they are cold. The  
charger must compensate by increasing its voltage to achieve the  
compensated equivalent of a room temperature charge. If the batteries are  
hot, the chemical reaction is hyperactive and they absorb energy too  
easily; thus a standard room-temperature charge would tend to overcharge  
a hot battery. Therefore, the charger compensates by reducing its voltage.  
The battery temperature sensor automatically, and in real time, makes  
adjustments to the charger’s voltage setpoints to properly charge your  
batteries. The actual charge compensation formula can be found on  
Important: It is normal to see a voltage that is different than the specified  
setpoint when charging if the battery case temperature is above or below 77 °F  
(25 °C)  
If a battery temperature sensor is not present, the RS3000 uses the hot  
setting, the default value, unless the setting has been adjusted during  
configuration. Charging may not be effective at extreme temperatures.  
Figure 2-2 Battery Temperature Sensor  
975-0170-01-01  
2–9  
     
Operation  
Operating in Equalization Mode  
WARNING: Explosive gases  
Equalization generates explosive gases. Ensure adequate ventilation.  
CAUTION: Batteries may be damaged  
Sealed lead-acid batteries and gel batteries must NEVER be equalized or  
premature battery failure will result. Equalize mode is disabled if you have  
selected “Gel” and “AGM” as the battery type.  
Only flooded (wet) lead-acid batteries should be equalized. As a general rule, do  
not equalize a battery unless there are provisions to add water to it and the  
manufacturer recommends equalization.  
If carried out too frequently or done improperly, equalization can damage your  
batteries. Never equalize a battery more than necessary. Always check electrolyte  
level before AND after equalization. Fill with distilled water per the battery  
manufacturer’s recommendation.  
CAUTION: Risk of damage to DC load equipment  
Equalization voltage may be as high as 15.8 volts DC. Disconnect sensitive loads  
from the battery before equalizing.  
Follow the battery manufacturer’s recommendations for equalizing your  
batteries. As a guide, a heavily used flooded battery may need to be  
equalized once a month, and a battery in light service may only need to be  
equalized every two to four months.  
Measure the specific gravity (S.G.) of each cell using a hydrometer. For  
fully charged lead-acid batteries, the reading should be approximately  
1.265. Low specific gravity after charging or a 0.25 difference from cell  
to cell indicates the need for equalization.  
2–10  
975-0170-01-01  
       
Operation  
Equalizing Batteries  
Important: Equalization will be carried out after an absorption charge.  
Equalization only runs for 60 minutes and may need to be restarted if the  
specific gravity is still uneven.  
To equalize your batteries:  
1. Turn off or disconnect all loads on the battery.  
The voltage applied to the battery during equalization may damage  
your electronic equipment. As well, equalization won’t proceed  
correctly if loads are drawing current from the battery.  
2. Check electrolyte level.  
Fill with distilled water if the electrolyte level is low.  
3. To request the equalization charge, ensure the Charger is enabled.  
4. On the System Control Panel, select Equalize on the RS3000 home  
menu. For detailed information on configuring this setting, refer to  
5. When equalization is finished, check the battery electrolyte level. Top  
up as necessary with distilled water only and recheck the specific  
gravity as specified by the battery manufacturer.  
Terminating the Equalization Process  
The equalization process can be terminated in three ways:  
user cancellation from the System Control Panel, as shown in Figure  
inverter/charger cancellation if AC is removed or the charger is  
disabled  
successful completion of the equalization process.  
975-0170-01-01  
2–11  
       
Operation  
Operating Limits for Charger Operation  
The maximum output current for the RS3000 is 150 amps. You can  
reduce the total output if you change the “Max Chg Rate” setting on the  
RS3000 Advanced Menu or the maximum “Power Share”setting on the  
RS3000 Basic Menu.  
The charger can operate over an AC input range of 90–135 volts AC. This  
is the default setting and can be adjusted to 85–145 volts AC as a  
maximum range and to 110–120 volts AC as a minimum range.This wide  
range allows the RS3000 to charge your batteries even when incoming  
AC voltage is less than ideal.  
Power Share  
The RS3000 charger uses AC input line 1 to charge the batteries. The  
RS3000 charger shares incoming power with AC loads on line 1 only. The  
AC loads have priority, which means that the charger will reduce its  
output with large AC loads and increase the output again when the AC  
load decreases. The regulatory maximum for continuous AC loads is 80%  
of the breaker rating that the loads are connected to.  
The RS3000 senses pass-through current going to the AC load. The  
difference between the pass-through (load) and 80% of the Power Share  
setting is the current that is available for charging the batteries.  
For example, if the AC input of the RS3000 is from an AC panel with a  
30A breaker, the Power Share setting on the System Control Panel should  
be selected as 30A. Based on this, the charger will control the charge  
current so that the total current draw is equal to or less than 24A in this  
case. Should the load current be more than about 24A, the charger output  
will reduce to 0A, but the RS3000 will continue to supply the loads. The  
RS3000 will continue to pass-through power to the loads, even if the load  
current exceeds the Power Share setting. In this case, it will be up to the  
user to remove/disconnect loads if tripping the AC input breaker  
supplying the RS3000 is to be avoided.  
2–12  
975-0170-01-01  
         
Operation  
Monitoring the RS3000 Indicator Lights  
The ten indicator lights on the front panel show you the operating status  
of the RS3000. A description of the lights is provided in Table 2-2.  
If none of the front panel lights are on, see “Troubleshooting Reference”  
tTable 2-2 Front Panel Lights  
Light Illuminated Color  
Status  
Action or Status Item  
External AC  
Inverter ON  
Green  
Green  
When the RS3000 is connected to a You can run your appliances  
qualified AC source or a generator, from an AC source like the  
the External AC light illuminates.  
utility grid or a generator.  
When the RS3000 is enabled (on)  
You can run your appliances  
and producing AC or load sensing, from the inverter.  
the Inverter ON light illuminates.  
This light is not illuminated if the  
unit is charging.  
Low Battery  
Yellow  
When the Low Battery light  
You can run your appliances but  
illuminates, the battery level is low. your battery level is low. Charge  
your battery or connect to an  
AC source or turn off the  
inverter.  
Network  
Fault  
Green  
Red  
Indicates that there is activity on the Communication on the network  
network.  
A fault has occurred on the  
network.  
Investigate and clear the fault  
condition.  
Charger ON  
Green  
When the RS3000 is in charge  
mode, the Charger ON light is  
The charger is active and  
charging your batteries. The  
illuminated. In three-stage charging, Charger ON light is always  
charging occurs in 3 stages: bulk, illuminated if charging, whether  
absorption, and float. One of these 3 the unit is putting out current or  
lights will be illuminated at the  
same time the Charger ON light is  
illuminated.  
not.  
If the Charger ON light is off, the  
RS3000 is not in any charge mode.  
975-0170-01-01  
2–13  
               
Operation  
Table 2-2 Front Panel Lights  
Light Illuminated Color  
Status  
Action or Status Item  
Bulk  
Green  
Green  
Green  
RS3000 is in bulk mode of battery These lights indicate which  
charging.  
state of charge the RS3000 is in.  
Absorption  
Float  
RS3000 is in absorption mode of  
battery charging.  
RS3000 is in float mode of battery  
charging. The Float light  
illuminates in three-stage charging.  
Equalize  
Yellow  
RS3000 is in equalize mode of  
battery charging.  
Faults and Warnings  
A fault affects the operation of the unit. A manual fault requires user  
intervention by clearing the condition and then pressing the Reset button  
on the inverter/charger’s front panel. See the System Control Panel  
Owners Guide for information on clearing faults from the System  
Control Panel.  
A warning alerts you to a condition that could possibly affect operation of  
the unit.  
See “Faults and Warnings” on page 4–2 for more explanation on the  
difference between faults and warnings.  
Monitoring Status Messages on the System Control Panel  
Refer to “System Menu Map” on page 3–3 of the Configuration chapter.  
2–14  
975-0170-01-01  
                 
Operation  
System Modes  
This section provides an overview of the four different system modes.  
The system modes described in this section affect the performance and  
behavior of the RS3000 and all other Xanbus-enabled devices on the  
Xanbus system. You’ll have to change the system mode when travelling,  
putting your vehicle in storage, or when installing a Xanbus-enabled  
device.  
You can change system modes using the System Settings menu on the  
System Control Panel.  
You can also use the red System button on the System Control Panel to  
put the System Control Panel and all other Xanbus-enabled devices into  
Power Save mode only.  
System  
button  
Figure 2-3 System Control Panel  
System modes are changed using the System Settings menu. The four  
system modes are:  
Operating  
Power Save  
Safe  
Hibernate  
Please read the section about each system mode to find out which mode is  
appropriate for different conditions or situations.  
975-0170-01-01  
2–15  
         
Operation  
Operating Mode  
Characteristics  
In Operating mode, all communications are enabled on the Xanbus  
system. All power conversion functions are enabled. Each Xanbus-  
enabled device is monitoring and communicating its input.  
The basic state of the System Control Panel is Operating mode. In  
Operating mode, the System Control Panel communicates with other  
Xanbus-enabled devices and displays all the network information which it  
is configured to display.  
Whenever the System Control Panel or any other device on the Xanbus  
system is powered on or reset, it will be in Operating mode.  
Figure 2-4 Operating Mode  
Power Save Mode  
Characteristics  
Power Save mode minimizes power draw by the System Control Panel  
and other Xanbus-enabled devices on the Xanbus system. Power Save  
mode stops all communication on the network and disables the power  
conversion functions of Xanbus devices. For example, in Power Save  
mode, the inverter/charger will not invert and an Automatic Generator  
Start will not start a generator.  
When to use  
Use Power Save mode during periods when your power needs are  
minimal—while you are driving, for example. Putting the system in  
Power Save mode will help preserve the charge in your batteries during  
periods of minimal power usage.  
Entering and exiting Power Save mode also serves as a “reset” command  
for the system.  
If there are active faults in the system, you cannot put the system into  
Power Save mode. Clear any active fault, correct the condition that  
caused the fault, then put the system into Power Save mode.  
2–16  
975-0170-01-01  
           
Operation  
To enter or exit Power Save mode:  
Press and hold the System button on the System Control Panel for one  
second.  
After you release the System button, the System Control Panel screen  
and indicator lights will turn off.  
You can also enter or exit Power Save mode on the System Settings  
menu by selecting Desired Mode and scrolling to PowerSave as  
shown in Figure 2-5.  
Oper at i ng  
[ Advanced]  
Figure 2-5 Power Save Mode  
Returning to  
Operating mode  
If an inverter/charger supplies power to the network, applying AC input  
with utility power or generator power automatically returns the system to  
Operating mode.  
Safe Mode  
CAUTION: Unexpected behavior  
Before installing or removing a device on the network, put the network into Safe  
mode. This prevents unexpected behavior.  
Characteristics  
Selecting Safe mode stops the generator (if it is running) and puts the  
System Control Panel (and all Xanbus-enabled devices) into Safe mode.  
While in Safe mode, the System Control Panel remains powered,  
“listening” to and reporting its status to the network. However, the ouptut  
power of all Xanbus-enabled devices is disabled and all inverting,  
charging, and generator starting activity stops. In Safe mode, the RS3000  
will not transfer AC power from a source.  
975-0170-01-01  
2–17  
       
Operation  
In Safe mode, the RS3000 continues to communicate, but the inverting  
and charging functions are disabled.  
When to use  
Use Safe mode when you are adding or removing devices from the  
network. Authorized service personnel must also put the System Control  
Panel in Safe mode before performing software upgrades and diagnostics  
with the Xantrex Diagnostic Tool.  
If the System Control Panel is powered off while in Safe mode, it will be  
in Safe mode when it is powered up again.  
To return to Operating mode:  
On the System Settings menu, under Desired Mode, select  
“Operating.”  
Putting the System into Safe Mode  
When you are installing or removing devices from the Xanbus system,  
putting the system into Safe mode prevents unexpected behavior.  
To enter Safe mode:  
1. On the Select Device menu, use the down arrow button to highlight  
System.  
The cursor on the right of the screen indicates where you are in the  
menu.  
Figure 2-6 Select Device Menu  
2. Press Enter.  
The System Settings menu appears.  
2–18  
975-0170-01-01  
   
Operation  
Figure 2-7 System Settings Menu  
3. On the System Settings menu, with Desired Mode highlighted, press  
Enter.  
4. Use the down arrow button to scroll through the other modes to select  
Safe mode.  
For more information on the different system modes: Operating,  
Power Save, and Hibernate see “Operating in Invert Mode” on  
Figure 2-8 Safe Mode  
5. Press Enter.  
You are now in Safe mode.  
6. Press Exit twice to return to the System Home Screen.  
To exit Safe mode and return to Operating mode:  
1. On the System Settings menu, under Desired Mode, select  
“Operating.”  
2. Press Enter.  
975-0170-01-01  
2–19  
     
Operation  
Hibernate Mode  
Characteristics  
Hibernate mode removes network power from the System Control Panel  
and all Xanbus-enabled devices on the Xanbus system. The System  
Control Panel suspends all operations (including starting and stopping the  
generator) until power is restored to the network. All Xanbus-enabled  
devices other than the RS3000 have no network power.  
When to use  
Use Hibernate mode when the Xanbus system is left unattended for long-  
periods of time to prevent any unattended system activity and to prevent  
battery drain during long periods of inactivity.  
The system will automatically enter Hibernate mode if it is in Power Save  
mode for more than two hours.  
Important: To prevent any unattended system activity, put the system into  
Hibernate mode from the System Control Panel before putting your RV or boat  
into storage.  
If there are active faults in the system, you cannot force the system into  
Hibernate mode. Clear any active faults, correct the condition that caused  
the fault, then put the system into Hibernate mode.  
Restoring power  
Once in Hibernate mode, the System Control Panel cannot return the  
System to Operating mode. You must restore power to the network by  
pressing the Reset button on the RS3000 front panel for several seconds.  
When the RS3000 has been reset, all of the front panel lights illuminate  
and remain on for a minimum of five seconds. After five seconds, the  
lights remain illuminated until the front panel has status information for  
all the lights.  
If an inverter/charger supplies power to the network, you can bring the  
system out of Hibernate mode either by pressing the reset button on the  
inverter/charger front panel or by applying AC input with utility power or  
generator power.  
2–20  
975-0170-01-01  
       
Configuration  
3
Chapter 3, “Configuration” contains information about all  
configurable settings and procedures for the RS3000.  
This chapter provides information on using the SCP to  
configure the RS3000 settings. Please refer to the System  
Control Panel Owners Guide for detailed information on how  
to use the SCP.  
     
Configuration  
General Configuration Information  
System Control Panel  
The System Control Panel provides configuration and monitoring  
capability for all Xanbus-enabled devices on the network. All changes to  
the configuration of the RS3000 are made with the System Control Panel  
The front panel of the RS3000 provides limited control, including reset;  
charger enable and disable; and inverter enable and disable.  
Enabling a function  
Disabling a function  
When a function is enabled, it is allowed to occur but other conditions  
may have to be met before the function is activated or turned on. For  
example, the charger function on the RS3000 may be enabled, but it will  
not charge unless qualified AC power is present.  
When a function is disabled, it is not allowed to occur and if it is  
occurring, it is terminated. Regardless of other conditions, the function  
will not be activated. For example, even if AC power is present, if the  
charger is disabled, the unit will not charge.  
These functions can also be controlled from the System Control Panel.  
3–2  
975-0170-01-01  
   
Configuration  
System Menu Map  
Figure 3-1 provides a map of how the System Control Panel screens and  
menus are organized. The order of devices appearing on the System  
Control Panel will vary, depending on the order in which they’ve been  
connected to the network.  
Power Up  
Startup screen  
System screen  
Standby Inverting Charging AC Bypass Load Sense  
Equalize  
Select Device  
menu  
Inverter/Charger  
menu  
Auto Gen Start menu  
System Panel menu  
Clock menu  
System Settings  
Optional device. This menu will  
appear if this device is installed.  
menu  
=
Figure 3-1 System Menu Map  
975-0170-01-01  
3–3  
       
Configuration  
Viewing the System Screen  
The System screen displays system activity. The information appearing  
on the System screen varies with the status of the inverter/charger:  
Standby, Inverting, Charging, AC Bypass, Load Sense or Equalize. See  
“Modes” on page 3–10 for an explanation of the different modes. For  
example, Figure 3-2 shows the RS3000 in the float stage of charging.  
You cannot select or change any of the information on the System screen.  
If you would like to view more detailed information, press the Enter  
button (indicated by the menu arrow) to go to the Select Device menu.  
menu  
Figure 3-2 RS3000 Float System Screen (Example)  
Viewing the Select Device Menu  
The Select Device menu is where you can view a list of all the Xanbus-  
enabled devices in your power system.  
To view the Select Device menu:  
On the System screen, press Enter.  
The Select Device menu appears with RS3000 highlighted, as shown in  
3–4  
975-0170-01-01  
         
Configuration  
Figure 3-3 Select Device Menu  
Selecting the RS3000 from the Select Device Menu  
To select the RS3000 from the Select Device menu:  
1. With RS3000 highlighted, press Enter.  
The RS3000 menu appears, as shown in Figure 3-4.  
I nver t  
[ *Enabl ed]  
Figure 3-4 RS3000 Menu in Invert Mode  
You can view and change RS3000 settings from the device menu. The  
number of settings on the RS3000 menu will depend on whether you have  
selected to view basic or advanced menus.  
Selecting the RS3000 Basic Menu  
RS3000 basic menu lists status information and settings you may have to  
adjust on a routine basis. It provides access to basic control of the  
inverter/charger.  
975-0170-01-01  
3–5  
           
Configuration  
Selecting the RS3000 Advanced Menu  
RS3000 advanced menu lists status information and settings which  
require that you understand and plan for the changes you make. You may  
not have to adjust these settings as part of regular operation.  
The System Control Panel shows the RS3000 basic menu by default. If  
you would like to view the advanced menu, you must go to the System  
menu and select Global Menus.  
Important: When you set Global Menus to Advanced, the System  
Control Panel will display the advanced menus for all devices.To return to  
viewing the basic menu for any Xanbus-enabled devices, select Basic  
Menu from the advanced menu for that device.  
To select the RS3000 Advanced Menu:  
1. On the Select Device menu with System highlighted, as shown in  
Figure 3-5, press Enter.  
Figure 3-5 Highlighting System on the Select Device Menu  
2. Scroll with the down arrow button to highlight Global Menus.  
3–6  
975-0170-01-01  
     
Configuration  
Figure 3-6 Highlighting Global Menus  
3. Press Enter.  
4. Select Advanced and press Enter.  
5. Press Exit to return to Select Device menu.  
Returning to RS3000 Basic Menu  
You can return to viewing the RS3000 basic menu by selecting Basic  
Menu from the RS3000 advanced menu, as shown in Figure 3-7.  
Advanced menu items will no longer be visible on the System Control  
Panel.  
[ Of f ]  
Cl ear Faul t s  
Figure 3-7 Returning to RS3000 Basic Menu  
975-0170-01-01  
3–7  
       
Configuration  
Selecting and Adjusting the Configurable Settings  
You can view or change RS3000 settings from the RS3000 menu. Status  
information is not configurable. Configurable settings are indicated by  
square brackets [ ] and can be adjusted.  
Follow these steps to change any RS3000 setting.  
1. On the RS3000 menu, use the up arrow or down arrow button to  
highlight the setting you want to change.  
2. Press Enter to highlight the value of that Configurable setting,  
indicated by square brackets [ ].  
The previously set value appears with an asterisk beside it, as shown  
3. Use the up arrow or down arrow button to change the value. Holding  
down a button lets you scroll through values quickly.  
4. Press Enter to select the value.  
5. If you have another setting to change, return to step 1.  
Or  
If you have no more settings to change, press Exit to return to the  
Select Device menu.  
Selecting the Default Settings  
All configurable items on the RS3000 menu items have a default setting.  
The default setting is the value which was set at the time the unit was  
originally installed.  
You can restore individual settings to their default value or you can  
restore all values to default settings. See “Restore Defaults Warning” on  
3–8  
975-0170-01-01  
     
Configuration  
RS3000 Menu Structure  
An overview of the RS3000 menu structure is shown in Figure 3-8. The  
System Control Panel displays the RS3000 basic menu and advanced  
menu.  
Figure 3-8 RS3000 Menu Structure — Overview  
975-0170-01-01  
3–9  
     
Configuration  
RS3000 Device Menu  
The RS3000 device menu displays status information on the different  
modes of the inverter/charger. The first three or four lines of the device  
screen displays dynamic content that changes, depending on what mode  
that the RS3000 is in.  
Modes  
The first line on the device menu indicates which mode that the RS3000 is  
in. Table 3-1 defines the seven different modes: Invert, Bulk, Absorption,  
Float, AC Bypass (AC Passthru), Load Sense, and Equalize.  
Table 3-1 Modes  
Mode  
Invert  
Bulk  
Description  
The RS3000 is converting DC power to AC power.  
The first stage of three-stage battery charging. Current is  
supplied to the batteries at a constant rate while voltage  
gradually rises.  
Absorption  
Float  
The second stage of three-stage battery charging. Voltage  
remains constant and current reduces as the battery  
becomes charged. This ensures complete charging.  
The third stage of three-stage battery charging. After the  
batteries reach full charge, charging voltage is reduced to a  
lower level to prevent gassing and to prolong battery life.  
This stage is often referred to as a maintenance charge.  
Rather than charging a battery, it keeps an already-charged  
battery from discharging while providing load current.  
AC Bypass  
(ACPassthru)  
AC input from an AC source like the utility grid or from a  
generator is allowed to pass through the unit to operate  
connected AC loads. The charger is not enabled but AC is  
qualified as good and passed through the unit.  
Load Sense  
Equalize  
In order to minimize power draw from the battery, the  
inverter will periodically check if a load is connected when  
the inverter is enabled.  
To improve the life and performance of a non-sealed,  
flooded (or wet) battery, the RS3000’s multi-stage charging  
cycle includes a manual equalize mode that can be used if  
recommended by the battery manufacturer.  
3–10  
975-0170-01-01  
       
Configuration  
Battery  
The second line of the device screen indicates the status of the battery.  
This line displays the volts (V); current (A) as either (+) positive amps  
(indicating that the battery is charging) or (–) negative amps (indicating  
the battery is discharging because you’re inverting); and battery  
temperature in either °F or °C.  
AC Input1 and AC Input2  
When the RS3000 has external AC input connected, these AC display  
lines indicate the status of the AC input. Each AC display line shows the  
values for current (A), frequency (Hz), and the AC voltage in (V).  
AC Out  
This line is displayed only when the RS3000 is in invert mode. This line  
indicates the AC output and shows the values for  
current (A), the frequency (Hz), and the AC voltage in (V).  
975-0170-01-01  
3–11  
     
Configuration  
RS3000 Menu (Basic)  
The RS3000 basic menu indicates the status of items and lists settings that  
you may have to adjust on a routine basis.  
If advanced menu is enabled, scroll through the RS3000 advanced menu  
items until Basic Menu is highlighted and press Enter. See “Returning to  
This section describes each item in detail with an example of the line item  
as it appears on the System Control Panel. Each item is described in terms  
of its purpose, whether it is a display or configurable setting, when to use,  
and the outcome of changing the setting.  
Important: On the System Control Panel, use the up arrow button or down  
arrow button to change the value. Holding down a button lets you scroll through  
values quickly.  
Inverter  
Configurable setting  
This setting lets you enable or disable the inverter. In the example shown,  
the inverter is enabled. For an explanation of enable and disable, see  
“Terminology” on page C–1. The default setting for the inverter is  
disabled.  
I nver t er  
[Enabl ed]  
When to use  
Outcome  
Enable the inverter when you would like to have AC power from the  
inverter.  
The inverter is enabled. The inverter provides power from the batteries  
unless qualified AC input power is present.  
Charger  
Configurable setting  
This setting lets you enable or disable the operation of the charger. In the  
example shown, the charger is enabled. The default setting for the charger  
is enabled.  
Char ger  
[ Enabl ed]  
When to use  
Set the charger to Enabled when you want your batteries charged when  
connected to AC power.  
The charger can be set to Disabled anytime during the charge cycle to  
immediately stop charging. The charger can also be enabled or disabled  
from the RS3000 front panel.  
3–12  
975-0170-01-01  
       
Configuration  
Outcome  
If the AC is qualified, the charger operates. If the AC is not qualified, then  
the charger will not operate until AC qualifies.  
See “Force Charge” on page 3–23 for information on automatic charging.  
Power Share  
Configurable setting  
Power Share is a configurable setting that you set to match to the breaker  
rating on the AC input. This setting is used to ensure that the charger  
limits its output to try to prevent nuisance tripping of the AC input  
breaker due to the total current drawn by the charger and your other AC  
loads. For more information on this feature, see “Power Share” on  
In the example shown, Power Share is set to 30A.  
Power Shar e  
[ 30A]  
You can adjust the power share settings as follows:  
Range of values  
Increment  
Default  
5 to 50 amps  
5 amps  
30 amps  
When to use  
Outcome  
Set the Power Share setting to match the AC input breaker. Use this  
setting when connecting to an AC source. If using multiple AC sources  
via an AC transfer switch, adjust this setting to the smaller AC breaker  
size.  
Setting the value higher than the AC source’s external breaker could  
cause the external breaker to trip.  
975-0170-01-01  
3–13  
   
Configuration  
Equalize  
Configurable setting  
This setting lets you enable or disable charger equalization, if the battery  
type is flooded (or wet). Equalization can be turned on (enabled) or off  
(disabled). The default setting for equalize is Off.  
Equal i ze  
[ Of f ]  
When to use  
before adjusting this setting. This menu item is displayed if the battery  
type allows equalization.  
In the RS3000 home menu, highlight Equalize, as shown in Figure 3-9.  
[ Enabl ed]  
[ 10. 0A]  
[ On]  
[ Fl ooded]  
Figure 3-9 Equalize On  
When you select On, the equalization confirmation warning appears, as  
shown in Figure 3-10.  
Yes  
No  
Figure 3-10 Equalize Confirmation Warning  
3–14  
975-0170-01-01  
       
Configuration  
Selecting Yes takes you to the equalization system home screen, as shown  
Yes  
n/ a  
13. 0V  
Menu  
Cancel  
Figure 3-11 Equalization System Home Screen  
Table 3-2 provides an explanation of the content on the equalization  
system home screen.  
Table 3-2 Equalization Home Screen Content  
Equalization Home  
Screen content  
Explanation of items displayed  
Precharging  
Yes”—precharging occurs if batteries are not  
fully charged before equalization. Batteries must  
be fully charged before equalization.  
“Done”—indicates the precharge is complete or if  
it was not required.  
Time Remaining  
Battery Voltage  
Indicates the time left for equalization. Equalization  
runs for 60 minutes and is counted down in 1 minute  
increments until the Time Remaining displays 0 min.  
(During a precharge, the Time Remaining displays  
“n/a”— not applicable.)  
Displays a range of 13.0 to 18.0V with a resolution of  
0.1V.  
Menu  
Pressing Menu returns you to Select Device screen.  
Cancel  
Pressing Cancel will display a confirmation screen, as  
shown in Figure 3-12, asking you to confirm that you  
want to cancel equalization.  
975-0170-01-01  
3–15  
   
Configuration  
want  
Equal i zat i on?  
Yes  
No  
Figure 3-12 Equalization Cancellation Warning  
If you choose Yes, the equalization process is cancelled and you are  
returned to the RS3000 home menu.  
If you choose No, the equalization home screen as shown in Figure 3-11  
appears.  
Batt Type  
Full name  
Battery Type  
Configurable setting  
Select the type of battery from flooded, custom, AGM, or gel. If a battery  
temperature sensor is not present, the RS3000 uses the hot setting which  
is the default value, unless the setting has been adjusted during  
configuration.  
Bat t Type  
[ Fl ooded]  
When to use  
This setting is adjusted for the type of battery you have. It is important  
during installation to choose the correct setting (battery type) to optimize  
the charge algorithm for your battery and to properly enable or disable  
information.  
The custom setting is selected to get the battery settings programmed by  
the dealer.  
3–16  
975-0170-01-01  
       
Configuration  
Batt Size  
Full name  
Battery size  
This features let you select the size of the battery bank being charged.  
Configurable setting  
Bat t Si ze  
[ 440 Ah]  
You can adjust the Battery Size settings as follows:  
Range of values  
Increment Default  
10 Ah 440 Ah  
50 Ah to 2000 Ah  
When to use  
Outcome  
Adjust this setting to your actual battery bank size.  
Reduces the maximum charger current to protect against charging smaller  
batteries too aggressively. This setting charges batteries appropriately  
based on capacity. (See the Battery Information section in the RS3000  
Sine Wave Inverter/Charger Installation Guide for more information.)  
Clear Faults  
Purpose  
Clear Faults is a command which clears all active faults in the RS3000.  
When faults are cleared, the device will resume normal operation. If the  
fault condition still exists, the fault will reoccur. See “Fault Types” on  
page 4–2 for an explanation of faults.  
Cl ear Faul t s  
You can adjust the Clear Faults settings as follows:  
Value  
Yes  
Effect  
Faults are cleared  
No action  
No  
975-0170-01-01  
3–17  
   
Configuration  
RS3000 Menu (Advanced)  
The advanced menu lists settings that provide you with additional control  
over RS3000. However, you may not have to adjust these settings as part  
of regular operation. For a listing of advanced menu items, see “RS3000  
In addition to several items from the basic menu, the RS3000 advanced  
menu contains the following sub-menus and commands:  
Configure Inv/Chg (Configure Inverter/Charger)  
View Device Info  
When you select a sub-menu and press Enter, a list of menu items  
appears.  
These settings are only visible if Advanced Menu is selected. To select the  
This section describes the menu items in detail. Each item is described as  
a display or configurable setting, when to use the setting, and the outcome  
of changing a setting.  
Inverter  
This feature is the same as described on the basic menu on page 3–12.  
This feature is the same as described on the basic menu on page 3–12.  
This feature is the same as described on the basic menu on page 3–13.  
Charger  
Power Share  
Configure Inv/Chg (Configure Inverter/Charger)  
Cfg Inv/Chg is a sub menu command. If you select this item, you’ll access  
3–18  
975-0170-01-01  
             
Configuration  
Equalize  
This feature is the same as described on the basic menu on page 3–13.  
Load Sense  
Configurable setting  
This setting lets you enable (turn On) or disable (turn Off) the load  
sensing function. The default setting for this value is Off, as shown in the  
example.  
Load sense  
[ Of f ]  
When to use  
Outcome  
Enable this setting if you want the inverter to conserve battery power  
when there are small loads or no loads applied.  
A small load like a clock display on a microwave may not get power.  
When loads are below the load sense threshold, the inverter will turn off  
the output to save battery power.  
Clear Faults  
This feature is the same as described on the basic menu on page 3–17.  
View Device Info  
For more information on this sub menu, Device Information, see “View  
Basic Menu  
Purpose  
Selecting Basic Menu takes you back to the basic menu of the RS3000  
only. Advanced menu items will no longer be visible on the System  
Control Panel.  
When to use  
Use this setting when you want to return to the basic menu of the RS3000.  
975-0170-01-01  
3–19  
               
Configuration  
Sub-Menus  
Configure Inv/Chg Menu (Configure Inverter/Charger Menu)  
Cfg/Inv Chg is a sub-menu. If selected, the following list of sub-menu  
items appears.  
Max Chg Rate  
Full name  
Maximum charge rate  
Configurable setting  
The actual battery charge rate is determined by two things: the battery  
bank size setting (C) divided by 5 (C÷5) and the charge rate setting (0 to  
100%).  
For example, if the battery bank size is set to 300 Ah (C) and the charge  
rate is set at 100%, the maximum charge rate is:  
300 ÷ 5 = 60 amps × 100% which is a 60 amp charge rate.  
If the charge rate setting is adjusted to 50%, the maximum charge rate is:  
300 ÷ 5 = 60 amps × 50% which is a 30 amp charge rate.  
The RS3000 has a maximum charge rate of 150 amps. Even though you  
can set a bank size of 2000 Ah, where C÷5 is 2000 ÷5 = 400 amps, the  
RS3000 would still charge at 150 amp maximum.  
Max Chg Rat e  
[ 100%]  
You can adjust the Max Chg Rate settings as follows:  
Range of values  
Increment  
Default  
10% to 100%  
10  
100%  
When to use  
Displayed only if in charger mode when you wish to control the  
maximum charge rate to your batteries.  
3–20  
975-0170-01-01  
       
Configuration  
Lo DC Volt  
Full name  
Low DC input voltage shutdown  
This setting lets you set the low voltage shutdown level for the inverter.  
Configurable setting  
Lo DC Vol t  
[ 10. 0V]  
You can adjust the Lo DC Volt settings as follows:  
Range  
Increment  
Default  
10 to 12 volts  
0.1 volt  
10 volts  
When to use  
This setting limits the depth of discharge on your battery.  
Batt Type  
This feature is the same as described on the basic menu on page 3–16.  
This feature is the same as described on the basic menu on page 3–17.  
Batt Size  
Sense Below  
Configurable setting  
This setting lets you adjust the load power at which the inverter will turn  
on. This setting saves battery consumption by keeping the inverter  
disabled (turned off) except when load demand is present.  
Sense Bel ow  
[ 50W]  
You can adjust the Sense Below settings as follows:  
Range of values  
Increment  
Default  
40 watts to 150 watts 10 watts  
50 watts  
When to use  
Outcome  
Adjust this setting to control the inverter based on the load.  
Sets the load threshold at a power level where you want the inverter to  
stay on, for example, when a sufficient load is applied. For more  
information on this feature, see “Load Sense Mode” on page 2–6.  
975-0170-01-01  
3–21  
           
Configuration  
Sense Interval  
Configurable setting  
This setting lets you adjust the interval between load sense pulses. The  
longer the interval, the more power you will save. However, the longer  
intervals may cause delays in the inverter powering up and starting your  
loads. For more information on this feature, see “Load Sense Mode” on  
Sense I nt er val  
[ 1s]  
You can adjust Sense Interval settings as follows:  
Range of values  
Increment  
Default  
1 to 25 seconds  
1 second  
1 second  
Cfg AC Limits (Configure AC Limits)  
Cfg AC Limits is a sub-menu. If selected, a list of sub-menu items appear.  
For more information on this sub menu, Configure AC Limits, see  
# Chg Stages  
Full name  
Number of charge stages  
Configurable setting  
These settings let you adjust your charger stages to either two-stage  
charging or three-stage charging. The default setting for # Chg Stages is  
explanation of two-stage and three-stage charging.)  
# Chg St ages  
[ 3St age]  
3–22  
975-0170-01-01  
         
Configuration  
Eqz Volts  
Full name  
Equalization voltage  
Configurable setting  
This setting lets you set the desired equalization voltage. This menu is  
displayed only if charger equalization is enabled. Select a setting based on  
the battery manufacturer’s recommendation. For more information, see  
Eqz Vol t s  
[ 15. 5V]  
You can adjust Eqz Volts settings as follows:  
Range of values  
Increment  
Default  
13.5 to 15.5 VDC  
0.1 volts  
15.5 VDC  
Force Charge  
Configurable setting  
This setting forces the charger to be enabled (On) whenever you have  
requalified AC. The default setting for Force Charge is On (enabled).  
For ce Char ge  
[ On]  
When to use  
Outcome  
Turn Force Charge to On if you want to automatically start charging  
whenever you connect to a qualified AC input, regardless of whether the  
Charger is Enabled or Disabled.  
Turn Force Charge to Off if you want charging to be determined only by  
whether the Charger is Enabled or Disabled.  
If Force Charge is turned to On, the charger starts whenever you have  
qualified AC.  
975-0170-01-01  
3–23  
       
Configuration  
Cfg AC Limits (Configure AC Limits)  
CAUTION: Risk of damage to equipment  
The following configuration settings adjust the quality of the AC input source  
that the inverter/charger will qualify and pass through to your AC loads. Voltage  
or frequency that is too high or too low for a particular piece of load equipment  
may cause damage to that load.  
Before adjusting these settings, refer to the electrical rating of connected load  
equipment. Most equipment that is marked with a single voltage (120 VAC, for  
example) rather than a range (110–125 VAC) can be expected to run properly  
over the range of 108 VAC to 125 VAC, since this is the normal supply range of  
electrical utilities.  
Lo AC Volt  
Full name  
Low AC Transfer voltage (AC under voltage level)  
Configurable setting  
Low AC Transfer voltage is the voltage below which the inverter/charger  
no longer qualifies AC as “good”, opens the relay, and attempts to transfer  
to Invert mode if Invert is enabled.  
Lo AC Vol t  
[ 90. 0V]  
You can adjust Lo AC Volt settings as follows:  
Range of values  
Increment  
Default  
85 to 110 VAC  
1 volt  
90 VAC  
When to use  
Outcome  
This setting lets you adjust the AC parameters when AC supply is outside  
of the lower voltage range required for electrical equipment.  
The lower level of voltage that will be accepted as “good” by the  
inverter/charger can be varied.  
3–24  
975-0170-01-01  
   
Configuration  
Lo AC Freq  
Full name  
Low AC transfer frequency (AC under frequency level)  
This setting lets you adjust the lowest frequency at which the  
Configurable setting  
inverter/charger no longer qualifies AC as “good” and attempts to transfer  
to invert mode.  
Lo AC Fr eq  
[ 55Hz]  
You can adjust Lo AC Freq settings as follows:  
Range of values  
Increment  
Default  
55 to 58 Hz  
1 Hz  
55 Hz  
When to use  
Outcome  
This setting can be used when the AC supply frequency is lower than the  
set value required for the electrical equipment.  
The lower frequency of the AC supply above which it will be qualified as  
“good” by the inverter/charger can be varied.  
Hi AC Volt  
Full name  
High AC transfer voltage (AC over voltage level)  
Configurable setting  
This setting lets you adjust the voltage above which the inverter/charger  
no longer qualifies AC as “good” and transfers to Invert.  
Hi AC Vol t  
[ 135V]  
You can adjust Hi AC Volt settings as follows:  
Range of values  
Increment  
Default  
120 to 145 VAC  
1 volt  
135 VAC  
When to use  
Outcome  
This setting lets you adjust the AC parameters when AC supply is outside  
the upper voltage range required for electrical equipment.  
The upper limit of the voltage that will be qualified as “good” by the  
inverter/charger can be varied.  
975-0170-01-01  
3–25  
   
Configuration  
Hi AC Freq  
Full name  
High AC transfer frequency (AC over frequency level)  
Configurable setting  
This setting lets you adjust the highest frequency at which the RS3000 no  
longer qualifies AC as “good” and transfers to Invert.  
Hi AC Fr eq  
[ 65Hz]  
You can adjust Hi AC Freq settings as follows:  
Range of values  
Increment  
Default  
62 to 70 Hz  
1 Hz  
65 Hz  
When to use  
Outcome  
This setting lets you adjust the AC parameters when the AC supply is  
outside the higher frequency range required for electrical equipment.  
The highest frequency of the AC supply that will be qualified as “good”  
by the inverter/charger can be varied.  
3–26  
975-0170-01-01  
 
Configuration  
View Device Info (View Device Information)  
If you select the View Device Info, the RS3000 Device Info menu  
appears, as shown in Figure 3-13, and allows you to view the Fault,  
Warning and Event logs and restore the default setting for the RS3000.  
On the menu, the scroll bar (the black rectangular shape on the right)  
moves vertically as you scroll through the list, indicating where you are  
on the menu.  
Figure 3-13 RS3000 Device Info Menu  
For an explanation of faults and warnings, see “Faults and Warnings” on  
page 4–2. An event is an indicator of which of the system modes that the  
unit has been in.  
View Fault Log  
The Fault log displays the 20 most recent faults for your reference. The  
Fault log is similar to the Event log shown in Figure 3-14.  
View Warning Log  
The Warning log displays the 10 most recent warning. The Warning log is  
975-0170-01-01  
3–27  
       
Configuration  
View Event Log  
Display setting  
The Event log, shown in Figure 3-14, displays the 10 most recent events.  
Events can include:  
Changing the system mode  
Enabling or disabling the charger  
Important: The Move Down arrow on the right of the menu indicates  
additional menu items below the bottom edge of the display.  
Figure 3-14 Event Log  
When to use  
The list provides useful information to a technical user about events on  
the system, including an event ID, and the date and time of the event.  
Restore Defaults  
Configurable setting  
The Restore Default command restores the default settings for each  
device.  
Rest or e Def aul t s  
When to use  
Adjust this setting when you wish to restore your settings to defaults.  
Important: Restoring to defaults will overwrite all of the stored values.  
When you select Restore Defaults, a warning message appears, as shown  
3–28  
975-0170-01-01  
     
Configuration  
cont i nue  
cancel  
Figure 3-15 Restore Defaults Warning  
If you select continue, your settings will be restored to default.  
If you select cancel, your existing settings will be retained and the Device  
Info menu appears.  
975-0170-01-01  
3–29  
 
3–30  
Troubleshooting  
4
WARNING: Electrical shock and fire hazard  
Do not disassemble the RS3000. It does not contain any user serviceable parts.  
Attempting to service the unit yourself could result in electrical shock or fire.  
The RS3000 is designed for high reliability of operation and  
has a number of protection features to provide trouble free  
operation. If, however, you have any problems operating your  
inverter/charger read this troubleshooting chapter.  
If you cannot resolve the problem, record the necessary  
Xantrex Customer Service to assist you better when you  
contact them.  
     
Troubleshooting  
Faults and Warnings  
When a fault or warning message appears, you can acknowledge the  
message to clear the screen. To acknowledge a fault or warning message,  
press the Enter button on the System Control Panel. This action does not  
clear the fault or warning condition, so you should consult Table 4-3 and  
Table 4-4 for suggested actions after you have acknowledged the  
message. Refer to the System Control Panel Owners Guide for more  
information on faults and warnings.  
Fault Types  
There are three types of fault messages: automatic faults, manual faults,  
and escalating automatic faults. Table 4-1 describes how they differ in  
their behavior and how you can respond to them when they appear on the  
System Control Panel.  
Table 4-1 Faults Types and Behaviors  
Fault type  
Behavior  
Automatic faults  
Clear automatically if the fault condition that  
generated the message goes away. You can also  
acknowledge automatic faults without waiting for  
them to clear automatically.  
Manual faults  
Require you to clear them by:  
selecting Clear Faults on the RS3000 or on the  
device that generated the fault (if the fault  
condition still exists, the fault message  
reappears)  
correcting the condition that caused the fault  
Escalating automatic  
faults  
Clear automatically if the fault condition goes away,  
just like an automatic fault.  
However, if an escalating automatic fault occurs  
several times within a defined time period, the  
escalating automatic fault becomes a manual fault,  
requiring user intervention. For example, if three  
faults occur in one minute, it will no longer clear  
itself but becomes a manual fault. Then you must  
identify the problem, correct the fault condition, and  
clear the fault or reset the device.  
4–2  
975-0170-01-01  
                 
Troubleshooting  
Warning Types  
There are two types of warnings: automatic and manual. When the  
RS3000 detects a warning condition, it displays a warning message on the  
System Control Panel.  
Table 4-2 describes how they differ in their behavior and in how you can  
respond to them when they appear on the System Control Panel.  
Table 4-2 Warning Types and Behavior  
Warning type  
Behavior  
Automatic warning  
Clear automatically if the fault condition that  
generated the message goes away. You can also  
acknowledge automatic warnings without waiting  
for them to clear automatically.  
Manual warning  
Require you to acknowledge them before you can  
proceed with configuring or operating the RS3000.  
Manual warnings are usually in the form of a  
Yes/No question that you may acknowledge by  
pressing the Enter button on the System Control  
Panel for Yes and the Exit button for No.  
Refer to the System Control Panel Owners Guide  
for more information.  
975-0170-01-01  
4–3  
         
Troubleshooting  
Troubleshooting Reference  
This chapter provides you with troubleshooting tips to identify and solve  
most problems that can occur with the RS3000.  
This chapter is divided into the following four sections:  
Section  
Page Number  
General Troubleshooting Guidelines  
Warning Messages  
Fault Messages  
Inverter Applications (Loads)  
4–4  
975-0170-01-01  
   
Troubleshooting  
General Troubleshooting Guidelines  
This section will help you narrow down the source of any problem you  
may encounter. Please read the following troubleshooting steps:  
1. Check for a Warning or Fault message on the System Control Panel.  
page 4–11 for descriptions of these messages and the specific actions  
to take. If a message is displayed, record it before doing anything  
further.  
2. As soon as possible, record on the form, “Information About Your  
System” on page WA–4, the conditions at the time the problem  
occurred. These details should include the following as well as any  
other information asked for on page page WA–4:  
Loads the RS3000 was running or attempting to run  
Battery condition at the time of failure (voltage, state of charge,  
for example), if known  
Recent sequence of events (for example, charging had just  
finished, we disconnected shore power as were preparing to leave  
the RV park, but the inverter didn’t come on)  
Any known unusual AC input factors such as low voltage or  
unstable generator output  
Extreme conditions which may have existed at the time  
(temperature, vibrations, moisture, for example).  
3. Attempt the solution indicated in Table 4-3 or Table 4-4.  
4. If your RS3000 or System Control Panel is not displaying a Fault  
light, check the following list to make sure that the present state of the  
installation allows proper operation of the unit:  
Is the inverter/charger located in a clean, dry, adequately ventilated  
place?  
Have the AC input breakers opened? If so, your pass through load  
may have exceeded the rating of one or more of the input breakers.  
Are the battery cables adequately sized and short enough?  
Is the battery in good condition and are all DC connections tight?  
Are the AC input and output connections and wiring in good  
condition?  
Are the configuration settings correct for your particular installation?  
Are the display panel and the communications cable properly  
connected and undamaged?  
975-0170-01-01  
4–5  
   
Troubleshooting  
Is the battery temperature sensor and its cable properly connected and  
undamaged?  
5. Contact Xantrex Customer Service for further assistance. Please be  
prepared to describe details of your system installation and provide  
the model and serial number of the unit. See “Contact Information”  
on page v for contact information.  
4–6  
975-0170-01-01  
Troubleshooting  
Warning Messages  
Warning messages appear on the System Control Panel to alert you to an  
impending system change. You can retrieve and view the last ten warning  
messages using the control panel. The warnings have been recorded with  
a time stamp to let you know the date and time that the warning appeared.  
manual warnings.  
You can view the most recent fault messages of the RS3000 (up to 20) by  
selecting Fault Log from the Device Info menu in the RS3000 Advanced  
Menu.  
If several warning messages occur before you can acknowledge or clear  
them, they are displayed together on a warning list. This list contains  
messages from every Xanbus-enabled device, not just the RS3000. You  
can select a message and view its details from warning list.  
To view a message from a warning list:  
1. On the list, use the up arrow or down arrow button to highlight the  
message you want to view.  
2. Press Enter.  
The complete message appears.  
After viewing the message, you can return to the warning list by pressing  
Exit or continue to the menu for the device that caused the fault by  
pressing Enter. Each time you return to the list after viewing a complete  
message, the viewed message is removed from the list.  
If you have left the warning list, you can view them at any time from the  
System Settings menu.  
To view a fault list:  
1. On the Select Device menu, highlight System and press Enter.  
2. On the System Settings menu, highlight View Warning List.  
3. Press Enter.  
975-0170-01-01  
4–7  
   
Troubleshooting  
Table 4-3 provides a detailed description of the warning messages and  
solutions.  
Table 4-3 Warning Messages  
Warning  
Number Message  
Warning  
Type  
Cause  
Solution  
W0  
W1  
W2  
W3  
W4  
FET1 over-temp.  
Check airflow  
around it.  
Automatic FET1 Over  
Ensure adequate ventilation  
Temperature Warning around the RS3000. Reduce the  
AC loads.  
FET2 over-temp.  
Check airflow  
around it.  
Automatic FET2 Over  
Ensure adequate ventilation  
Temperature Warning around the RS3000. Reduce the  
AC loads.  
Bulk cap. over-temp. Automatic DC Bulk Capacitor  
Check airflow  
around it.  
Ensure adequate ventilation  
around the RS3000. Reduce the  
AC loads.  
Over Temperature  
Warning  
Transf’r over-temp.  
Check airflow  
around it.  
Automatic Transformer Over  
Ensure adequate ventilation  
Temperature Warning around the RS3000. Reduce the  
AC loads.  
Battery over-temp.  
Check battery  
settings.  
Automatic Battery Over  
Check battery voltage and  
Temperature Warning battery cable connections. Stop  
charging, if necessary. Check  
for excessive ambient  
temperature and adequate  
ventilation in the battery  
compartment  
W5  
Over-temperature.  
Check airflow  
around it.  
Automatic Ambient Over  
Ensure adequate ventilation  
Temperature Warning around the RS3000. Reduce  
charge rate or AC load.  
W6  
W7  
Too many AC loads. Automatic AC Overload Warning Turn off some AC loads.  
Turn some off.  
(AC OUPUT)  
You have enabled  
system restart after  
faults.  
Automatic Auto Restart After  
If in invert mode, the unit may  
Fault Feature Enabled. start up unexpectedly.  
(This parameter is not  
accessible through the  
System Control Panel.  
In the future, this  
feature may be  
configurable with  
advanced panels.)  
W8  
You have enabled  
battery equalization.  
See manual.  
Automatic Equalization Enabled  
Warning  
Make sure voltage sensitive  
loads are disconnected from  
batteries.  
4–8  
975-0170-01-01  
Troubleshooting  
Table 4-3 Warning Messages  
Warning  
Number Message  
Warning  
Type  
Cause  
Solution  
W9  
Battery temp sensor Automatic Battery Temperature  
Install a battery temperature  
sensor (BTS). This warning  
will continue to display as long  
as no BTS is connected.  
not detected. Check  
connections.  
Sensor Not Present  
W10  
W11  
Battery temp sensor Automatic Battery Temperature  
failure. Sensor Shorted  
Replace battery temperature  
sensor.  
Batt voltage too high. Automatic DC Over Voltage  
Turn off or check additional  
charging sources to batteries.  
Check battery cables.  
Check DC wiring to  
inverter/charger.  
Warning  
W12  
W13  
W14  
W15  
W16  
W18  
Battery voltage is  
getting low.  
Recharge battery.  
Automatic DC Under Voltage  
Warning  
Recharge batteries and check  
battery cables from inverter to  
batteries for loose connections.  
Line 1 AC voltage  
too high. System may  
shut down  
Automatic AC Over Voltage  
Warning (AC Line 1  
input)  
Check AC input voltage.  
Check high AC input voltage  
setting.  
Line 1 AC voltage  
too low. System may  
shut down.  
Automatic AC Under Voltage  
Warning (AC Line 1  
input)  
Check AC input voltage.  
Check low AC input voltage  
setting.  
Line 2 AC voltage  
too high. System may  
shut down.  
Automatic AC Over Voltage  
Warning (AC Line 2  
input)  
Not applicable to RS3000.  
Line 2 AC voltage  
too low. System may  
shut down.  
Automatic AC Under Voltage  
Warning (AC Line 2  
input)  
Not applicable to RS3000.  
Cannot Equalize  
Manual  
Manual  
Cannot equalize  
Wrong battery type. Change  
battery type only if the battery  
type setting is not the same as  
actual battery type. Cannot  
equalize a gel or AGM battery.  
W19  
Equalization  
terminated  
abnormally  
Equalization  
Investigate cause of problem.  
terminated abnormally  
W500  
Lost network  
connection  
Automatic Lost network  
connection  
Check network cables or  
terminators.  
975-0170-01-01  
4–9  
Troubleshooting  
Table 4-3 Warning Messages  
Warning  
Number Message  
Warning  
Type  
Cause  
Solution  
W501  
Inv/Chg is trying to  
fix a memory  
problem  
Manual  
Non-volatile memory  
warning  
Normal operation may return  
or may go to fault. Push Reset  
button if normal operation does  
not resume.  
4–10  
975-0170-01-01  
Troubleshooting  
Fault Messages  
When the RS3000 detects a fault condition, the fault is displayed on the  
System Control Panel and also is indicated by the illuminated red Fault  
light on the RS3000 front panel. A fault affects the operation of the unit.  
See “Fault Types” on page 4–2 for an explanation of the different fault  
types.  
You can view the 20 most recent fault messages of the RS3000 by  
selecting Fault Log from the Device Info menu in the RS3000 Advanced  
Menu.  
If several faults occur before you can acknowledge or clear them, they are  
displayed together on a warning list. This list contains messages from  
every Xanbus-enabled device, not just the RS3000. You can select a  
message and view its details from the fault list.  
To view a message from a fault list:  
1. On the list, use the up arrow or down arrow button to highlight the  
message you want to view.  
2. Press Enter.  
The complete message appears.  
After viewing the message, you can return to the fault list by pressing Exit  
or continue to the menu for the device that caused the fault by pressing  
Enter. Each time you return to the list after viewing a complete message,  
the viewed message is removed from the list.  
If you have left the fault list, you can view them at any time from the  
System Settings menu.  
To view a fault list:  
1. On the Select Device menu, highlight System and press Enter.  
2. On the System Settings menu, highlight View Fault List.  
3. Press Enter.  
975-0170-01-01  
4–11  
     
Troubleshooting  
Table 4-4 provides a detailed description of the fault messages and  
solutions. If you are unable to resolve the problem after referring to this  
table, contact your dealer or Customer Service.  
Table 4-4 Fault Messages  
Fault  
Number Message  
Fault  
Type  
Cause  
Solution  
F0  
F2  
F3  
F4  
is too hot and has  
shut down. See  
guide.  
Automatic FET1 Over  
Clear the fault and attempt  
Temperature Shutdown restart. Ensure adequate  
ventilation around the RS3000.  
Reduce AC loads.  
is too hot and has  
shut down. See  
guide.  
Automatic FET2 Over  
Clear the fault and attempt  
Temperature Shutdown restart. Ensure adequate  
ventilation around the RS3000.  
Reduce AC loads.  
is too hot and has  
shut down. See  
guide.  
Automatic Transformer Over  
Clear the fault and attempt  
Temperature Shutdown restart. Ensure adequate  
ventilation around the RS3000.  
Reduce AC loads.  
Battery over-temp.  
Inv/Chg has shut  
down. See guide.  
Automatic Battery Over  
Clear the fault and attempt  
Temperature Shutdown restart. Stop charging, check  
battery voltage and  
temperature. Check for  
excessive ambient temperature  
and adequate ventilation in the  
battery compartment.  
F5  
F6  
is too hot and has  
shut down. See  
guide.  
Automatic Ambient Over  
Clear the fault and attempt  
Temperature Shutdown restart. Ensure adequate  
ventilation around RS3000.  
Reduce AC loads.  
Too many AC loads. Escalating AC Overload  
Turn some off, clear Auto Fault. Shutdown (AC  
Clear the fault and attempt  
restart. Reduce AC loads.  
fault, try again.  
Must occur OUTPUT)  
3 times in  
30 seconds  
before  
becoming  
a manual  
fault.  
4–12  
975-0170-01-01  
Troubleshooting  
Table 4-4 Fault Messages  
Fault  
Number Message  
Fault  
Type  
Cause  
Solution  
Clear the fault and attempt  
F7  
Too many AC loads. Escalating AC Overload (PEAK  
Turn some off, clear Auto Fault. CURRENT)Shutdown restart. Reduce AC loads.  
fault, try again.  
Must occur (AC OUTPUT)  
3 times in  
30 seconds  
before  
becoming  
a manual  
fault.  
F8  
F9  
has lost input neutral Manual  
connection. See  
guide.  
Neutral loss shutdown Clear the fault and attempt  
restart. Check AC input wiring  
for presence of a proper neutral  
connection and ground  
connection. Check the AC  
input source to make sure the  
neutral is bonded to ground.  
Battery voltage is too Automatic DC Over Voltage  
high. See guide.  
Clear the fault and attempt  
restart. Ensure battery voltage  
is 10–16 VDC at RS3000  
terminals. Check all other  
charging source outputs,  
battery cables.  
Shutdown  
F10  
F11  
F12  
F13  
Battery is too low,  
can’t invert.  
Recharge battery.  
Automatic DC Under Voltage  
Clear the fault and attempt  
Shutdown (Immediate) restart. Recharge batteries.  
occurs if DC voltage is Check battery cable  
below 8 volts DC  
connections.  
Battery is too low,  
can’t invert.  
Recharge battery.  
Automatic DC Under Voltage  
Shutdown occurs if  
DC voltage is below  
10 volts DC.  
Clear the fault and attempt  
restart. Recharge batteries.  
Check battery cable  
connections.  
Input AC too high.  
Check source, clear  
fault, try again.  
Automatic AC Over Voltage  
Clear the fault and attempt  
Shutdown (AC Line 1 restart. Check AC input  
input)  
voltage. Check and adjust AC  
input high voltage settings.  
Input AC too low.  
Check source, clear  
fault, try again.  
Automatic AC Under Voltage  
Clear the fault and attempt  
Shutdown (AC Line 1 restart. Check AC input  
input)  
voltage. Check and adjust AC  
input low voltage setting.  
975-0170-01-01  
4–13  
Troubleshooting  
Table 4-4 Fault Messages  
Fault  
Number Message  
Fault  
Type  
Cause  
Solution  
F14  
F15  
F16  
Input AC too high.  
Check source, clear  
fault, try again.  
Automatic AC Over Voltage  
Shutdown (AC Line 2  
input)  
Not applicable for RS3000  
Input AC too low.  
Check source, clear  
fault, try again.  
Automatic AC Under Voltage  
Shutdown (AC Line 2  
input)  
Not applicable to RS3000.  
AC input frequency  
problem. Check gen  
for overspeed.  
Automatic AC Over Frequency  
Clear the fault and attempt  
Shutdown (AC Line 1 restart. Check AC input  
input)  
frequency. Check and adjust  
AC input high frequency  
setting.  
F17  
AC input frequency  
problem. Check gen  
for underspeed.  
Automatic AC Under Frequency  
Clear the fault and attempt  
Shutdown (AC Line 1 restart. Check AC input  
input)  
frequency. Check and adjust  
AC input low frequency  
setting.  
F18  
F19  
F23  
AC input frequency  
problem. Check gen  
for overspeed.  
Automatic AC Over Frequency  
Shutdown (AC Line 2  
input)  
Not applicable to RS3000.  
AC input frequency  
problem. Check gen  
for underspeed.  
Automatic AC Under Frequency  
Shutdown (AC Line 2  
input)  
Not applicable to RS3000.  
Reset the RS3000. If Escalating AC Over Voltage  
problem persists, call Auto Fault. Shutdown (Inverter  
customer service.  
Clear the fault and attempt  
restart. If problem persists, call  
customer service.  
Must occur AC output)  
3 times in  
30 seconds  
before  
becoming  
a manual  
fault.  
4–14  
975-0170-01-01  
Troubleshooting  
Table 4-4 Fault Messages  
Fault  
Number Message  
Fault  
Type  
Cause  
Solution  
F24  
F25  
F26  
Reset the RS3000. If Escalating AC Under Voltage  
problem persists, call Auto Fault. Shutdown (Inverter  
Clear the fault and attempt  
restart. If problem persists, call  
customer service.  
customer service.  
Must occur AC output)  
3 times in  
60 seconds  
before  
becoming  
a manual  
fault.  
Reset the RS3000. If Escalating Auxiliary Power  
problem persists, call Auto Fault. Supply Over Voltage  
Clear the fault and attempt  
restart. If problem persists, call  
customer service.  
customer service.  
Must occur Shutdown  
3 times in  
30 seconds  
before  
becoming  
a manual  
fault.  
Reset the RS3000. If Escalating Auxiliary Power  
Clear the fault and attempt  
problem persists, call Auto Fault. Supply Under Voltage restart. If problem persists, call  
customer service.  
Must occur Shutdown  
3 times in  
30 seconds  
before  
customer service.  
becoming  
a manual  
fault.  
F29  
F30  
Reset the RS3000. If Manual  
problem persists, call  
customer service.  
AC Backfeed  
Shutdown  
Clear the fault and attempt  
restart. If problem persists, call  
customer service.  
is too cold and has  
shut down. See  
guide.  
Manual  
Battery Under  
Temperature Fault  
Clear the fault and attempt one  
restart. Try restart again when  
ambient temperature is warmer  
or gently warm the battery.  
F40  
Reset the RS3000. If Manual  
problem persists, call  
No IPC  
communication  
Service required.  
customer service.  
975-0170-01-01  
4–15  
Troubleshooting  
Table 4-4 Fault Messages  
Fault  
Number Message  
Fault  
Type  
Cause  
Solution  
F41  
Reset the RS3000. If Manual  
problem persists, call  
customer service.  
Dead battery charger  
timeout  
Try restarting dead battery  
charging once. Then check the  
condition of the battery and  
replace if necessary.  
F64  
Improper AC in.  
Reduce AC loads.  
See manual.  
Manual  
Manual  
Neutral Over Current 1 Clear fault. Reduce AC loads  
and/or disable the charger. If  
problem persists, use split  
phase AC input.  
F500  
Silicon Serial ID  
Failure  
Silicon Serial ID  
Failure  
Service required.  
F502  
F505  
F506  
Watchdog reset error Manual  
Watchdog reset error  
Controller fault  
Service required.  
Service required.  
Controller fault  
Manual  
Manual  
Wrong fault  
identifier  
Wrong fault identifier Service required.  
F507  
F508  
Wrong identifier  
Invalid interrupt  
Manual  
Manual  
Wrong identifier  
Invalid interrupt  
Service required.  
Service required.  
4–16  
975-0170-01-01  
Troubleshooting  
Inverter Applications  
The RS3000 performs differently depending on the AC loads connected  
to it. If you are having problems with any of your loads, read this section.  
Resistive Loads  
These are the loads that the inverter finds the simplest and most efficient  
to drive. Voltage and current are in phase, which means they are in step  
with one another. Resistive loads usually generate heat in order to  
accomplish their tasks. Toasters, coffee pots, and incandescent lights are  
typical resistive loads. It is usually impractical to run larger resistive  
loads—such as electric stove and water heaters—from an inverter due to  
their high current requirements. Even though the inverter may be able to  
accommodate the load, the size of battery bank required would be  
impractical if the load is to be run for long periods.  
Motor Loads  
Induction motors (motors without brushes) require two to six times their  
running current on start up. The most demanding are those that start under  
load (for example, compressors and pumps). Of the capacitor start motors  
(typical in drill presses, band saws for example), the largest you can  
expect to run is 1 hp. Universal motors are generally easier to start. Since  
motor characteristics vary, only testing will determine whether a specific  
load can be started and how long it can be run.  
If a motor fails to start within a few seconds or loses power after running  
for a time, it should be turned off. When the inverter attempts to start a  
load that is greater than it can handle, the inverter will turn itself off after  
a few seconds.  
Problem Loads  
Very Small Loads  
If the power consumed by a device is less than the threshold of the Load  
Sense mode circuitry, and load sense is enabled, the inverter will not run.  
Most likely the solution will be to disable the Load Sense mode feature or  
lower the sense threshold. Refer to Xantrex Tech Note TN3 (979-0003-  
01-01) for more information.  
975-0170-01-01  
4–17  
                 
Troubleshooting  
Fluorescent Lights & Power Supplies  
Some devices cannot be detected when scanned by Load Sense circuitry.  
Small fluorescent lights are the most common example. Some computers  
and sophisticated electronics have power supplies that do not present a  
load until line voltage is available. When this occurs, each unit waits for  
the other to begin. To drive these loads, either a small companion load  
like a light bulb rated for more than the load sense setting must be used to  
bring the inverter out of its search mode, or the inverter may be  
programmed to remain on by disabling the Load Sense feature. (See  
Clocks  
You may notice that your clocks may not be accurate. Some of the clocks  
on your appliances may reset when the inverter/charger is in load sense  
mode.  
Searching  
When the inverter is in Load Sense (search) mode, it may fail to start  
some loads even though the rated wattage on the load is more than the  
load sense setting. Apply an additional load (companion load) to make the  
inverter exit Load Sense mode.  
4–18  
975-0170-01-01  
     
Specifications  
A
Appendix A, “Specifications” contains the electrical and  
physical specifications for the RS3000 Sine Wave Inverter/  
Charger.  
All specifications are subject to change without notice.  
     
Specifications  
Inverter Specifications  
All inverter specifications are at nominal conditions: ambient temperature  
of 77 °F (25 °C), 3000 watt resistive load, 12 volts DC inverting on the  
RS3000, 120 volts AC, unless otherwise specified.  
Table A-1 Inverter Specifications  
Output wave form  
Sine wave  
Total harmonic voltage distortion  
Output power continuous  
Surge rating  
<3%  
3000 W/3000 VA continuous  
7500 W/7500 VA for 5 seconds  
120 VAC ± 5%  
AC output voltage  
Input DC voltage rating  
AC output frequency  
Power factor (lag or lead)  
Peak efficiency  
12 VDC nominal, 10 to 16 VDC  
60.0 ± 0.05 Hz  
0 to 1.0  
>89%  
Efficiency at 3000W  
No load power draw  
>85%  
Load sense On <14W  
Load sense Off <60W  
DC low voltage shutdown  
DC over voltage shutdown  
10 volts  
16 volts  
A2  
975-0170-01-01  
     
Specifications  
Charger Specifications  
All charging specifications are at nominal conditions: ambient  
temperature of 77 °F (25 °C), 120 VAC, 60 Hz input, unless otherwise  
specified.  
Table A-2 Charger Specifications  
Charging method  
Three-stage charge (Bulk, Absorption, Float)  
Two-stage charge (Bulk, Absorption)  
The default charging method is three-stage.  
Without a battery temperature  
sensor  
Three settings with the following temperature  
values:  
Cool 50 °F (10 °C)  
Warm 77 °F (25 °C)  
Hot 104 °F (40 °C)  
The default value for this setting is Hot, and it can  
only be changed by a dealer, factory, or service  
centre.  
With a battery temperature  
sensor  
The temperature compensation coefficients on a  
12 volt battery are as follows:  
Flooded: 27 mV × (25 °C – BTS °C)  
Gel: 27 mV × (25 °C – BTS °C)  
AGM: 21 mV × (25 °C – BTS °C)  
Equalization cycle  
Yes, manual via System Control Panel  
1
Number of independent battery  
banks  
Battery bank size settings  
Battery type settings  
50 – 2000 Ahr  
Flooded, AGM, Gel, Custom  
Power factor corrected charging Yes  
Input power factor at full  
charge rate  
> 0.95  
AC input voltage  
90 – 135 VAC  
AC input frequency  
60 Hz nominal, 55 – 65 Hz operating range  
Minimum battery voltage  
Maximum DC output voltage  
Charger efficiency  
3.0 VDC  
16.0 VDC  
85%  
Maximum charge current  
150 A  
975-0170-01-01  
A3  
     
Specifications  
Transfer and General Specifications  
All transfer specifications are at nominal conditions: ambient temperature  
of 77 °F (25 °C), 120 VAC, 60 Hz input, unless otherwise specified.  
Table A-3 Transfer and General Specifications  
Transfer time—utility to invert  
20 ms  
Minimum AC input voltage for transfer  
Maximum AC input voltage for transfer  
90 VAC RMS  
135 VAC RMS  
Minimum AC input frequency for transfer 55 Hz  
Maximum AC input frequency for transfer 65 Hz  
Cooling  
Fan-cooled, temperature controlled.  
Network power supply  
Supported AC input types  
800 mA at 15 VDC  
Split phase (up to 50 amps per line)  
Dual input (up to 25 amps per line)  
Environmental Specifications  
Table A-4 Environmental Specifications  
Nominal Ambient temperature  
77 °F (25 °C)  
Full Power Operating Ambient  
Temperature Range  
–4 ° to 122 °F (–20 ° to 50 °C)  
Maximum Operating Temperature  
Storage temperature range  
–40 ° to 185 °F (–40 to 85 °C)  
Humidity: Operation/Storage  
95% RH, non-condensing  
A4  
975-0170-01-01  
         
Specifications  
Physical Specifications with Projections  
Table A-5 Physical Specifications  
Length  
Width  
16.19 inches (411 mm)  
14.20 inches (361 mm)  
8.1 inches (208 mm)  
75 lbs (34 kg)  
Height  
Weight  
Regulatory Approvals  
Safety  
EMC  
CSA certified to CSA C22.2 No. 107.1 and UL 458  
FCC and Industry Canada Class B  
Fan Operation  
The internal cooling fans are automatic temperature-controlled.  
Important: This internal temperature of the inverter/charger may be caused  
by heat in the inverter/charger or by high ambient temperature.  
The bottom fan is an exhaust fan and runs continuously.  
975-0170-01-01  
A5  
               
Specifications  
Invert Power Derating vs Ambient Temperature  
The inverter/charger delivers up to 3000 watts continuous of sine wave  
output to 50 °C ambient temperature and 2250 watts continuous of sine  
wave output to 60 °C ambient temperature, derated linearly from 50 °C to  
60 °C.  
If the unit is in elevated ambient temperature above 50 °C, you are  
required to reduce power draw according to Figure A-1 to avoid over-  
temperature shutdown.  
3000  
2250  
-20 -10  
0
10  
20  
30  
40  
50  
60  
Ambient Temperature ( °C )  
Figure A-1 Inverter Output Power vs Ambient Temperature  
Charger Mode  
Charger output (bulk mode) is 150 amps DC to 50 °C ambient. In higher  
ambients, the charger will automatically derate (reduce output current) to  
maintain internal temperatures at a safe level. Output at 60 °C ambient is  
approximately 75 amps.  
A6  
975-0170-01-01  
           
Battery Charging  
Reference  
B
multistage charging algorithm (formula) of the RS3000.  
     
Battery Charging Reference  
Charging Algorithms (Formulas)  
Battery Type  
RS3000 charges flooded (or wet) lead-acid, gel, AGM (absorbed glass  
mat), and custom batteries. See “Batt Type” on page 3–16 for information  
on selecting your battery type.  
Flooded (or wet)  
Gel  
Flooded (or wet) batteries have removable battery caps for refilling with  
distilled water and testing the electrolyte.  
Gel batteries have the electrolyte in the form of a gel rather than a liquid  
and do not require topping up. Gel batteries are sealed and the battery  
caps are not removable.  
AGM  
AGM (absorbed glass mat) batteries are similar to gel batteries except that  
the electrolyte is absorbed into a fiberglass matting.  
Custom  
Custom is configured by the dealer, factory, or service center for battery  
types other than those listed above.  
WARNING: Risk of battery damage  
Since the RS3000 has only one battery type setting for all batteries connected to  
its bank, do not mix battery types. All connected batteries should be of one kind:  
Flooded (or wet) or Gel or AGM or Custom.  
Charge Algorithm Stages  
Three-Stage charging  
If three-stage charging is enabled, the RS3000 will charge batteries in a  
sequence known as three-stage charging. The charging voltage delivered  
to the battery depends on the battery:  
type setting  
temperature (by switch setting or battery temperature sensor)  
state of charge  
The three automatic stages are:  
bulk  
absorption  
float  
See Figure B-1 for a graph of the three-stage charging profile.  
B2  
975-0170-01-01  
                             
Battery Charging Reference  
There is a fourth stage, equalization, which is initialized manually as it is  
only performed occasionally and only on flooded (or wet) batteries.  
Bulk Charge  
In the first stage—the bulk charge—RS3000 delivers its full-rated output  
current. This constant current is delivered to the batteries until the battery  
voltage approaches its gassing voltage—typically around 13.5 volts for  
12 volt batteries. The bulk charge stage restores about 75% of the  
battery’s charge.  
The exit from bulk stage to the next stage, absorption, occurs under the  
following condition:  
battery voltage is more than the gassing voltage (VG) for a specified  
amount of time (3 minute default).  
With an AC reconnect to qualified AC from the utility power or a  
generator during the bulk stage, the unit will return to the bulk stage.  
Absorption Charge  
During the first part of absorption charge, the RS3000 delivers its full  
rated output current until the absorption voltage is reached. At this point,  
the RS3000 will transition to a constant voltage mode by keeping the  
charge voltage constant at the absorption voltage level, and the battery  
gradually reduces the charging current it demands as the battery attains  
full charge.  
The absorption stage has the following exit criteria:  
Overall time in absorption timeout (TA) has a default of 6 hours.  
Time in constant voltage absorption timeout (∆TCV) has a default of 1  
hour.  
Charge current level drops below a specified limit (IH) for a specified  
amount of time, which has a default of 2% of C in Ah for 3 minutes.  
With an AC reconnect during the absorption stage, the unit will transition  
to the float stage for three-stage charging and no-float stage for two-stage  
charging.  
975-0170-01-01  
B3  
       
Battery Charging Reference  
Float Charge  
In the third stage—the float charge—which is a maintenance mode, the  
output voltage of the charger is reduced to a lower level, typically about  
13.5 (VF1) volts to maintain the battery’s charge without losing electrolyte  
through gassing.  
With AC reconnected during this stage, the unit will return to the float  
stage.  
Equalization Charge  
The equalization charge must be manually initiated from the System  
Control Panel because it is not required each time the battery is recharged.  
Equalization is a deliberate overcharge designed to return each cell to  
optimum condition by reducing sulfation and stratification in the battery.  
The overcharge helps the battery to reach and maintain peak capacity.  
An equalization charge should be performed only on flooded, vented  
(non-sealed or “wet”) batteries. It should be performed only if  
recommended by the battery manufacturer and only as often as specified.  
After initiating an equalize charge cycle, the charger will always execute  
a bulk and absorption charge stage before starting the actual equalize  
charge stage. The equalize charge stage has a default current and voltage  
setpoint at 10% of C in Ah and 15.5 VDC, respectively. During the  
equalize charge stage, the charger will produce current equal to the  
current setpoint as long as the battery voltage is still less than the voltage  
setpoint. When the voltage setpoint is reached, the charger will change its  
current output to keep the battery voltage steady at the voltage setpoint  
level.  
There is a timeout (default is 1 hour) for the equalize charge stage. The  
charger will exit equalize after the timeout has occurred, even if the  
voltage setpoint has not been reached. Should another equalize cycle be  
required, it has to be manually initiated from the System Control Panel.  
Should an AC reconnect occur during the equalize charge stage, the  
charger will return to the float/no-float charge stage, depending on which  
one is selected.  
B4  
975-0170-01-01  
       
Battery Charging Reference  
Two-Stage Charging  
If the two-stage charge is enabled, the charger finishes the absorption  
charge but does not go to float mode because some battery manufacturers  
advise against floating their batteries. The RS3000 goes into a monitoring  
mode instead where the charger monitors the batteries but does not float  
them.  
A new two-stage charge cycle will be initiated under the same conditions  
as for three-stage charging.  
Charge Algorithm Graph  
Bulk  
Absorption  
Float  
V
A
V
G
V
F1  
V
F2  
T
A
CV  
T
T
F
IB  
IH  
Time  
Figure B-1 Three-Stage Charging Profile  
Charge Algorithm Definitions  
Table B-1 Battery Defaults  
Voltage  
Flooded (or wet)  
Gel  
AGM  
14.3  
V
Absorption Voltage (VDC)  
Gassing Voltage (VDC)  
Float Voltage (VDC)  
14.4  
13.5  
13.5  
12.5  
14.4  
13.8  
13.8  
12.5  
A
V
V
V
13.45  
13.45  
12.5  
G
F1  
F2  
Float Exit Voltage (VDC)  
975-0170-01-01  
B5  
               
Battery Charging Reference  
Voltage  
Flooded (or wet)  
Gel  
AGM  
V
Equalize Voltage (VDC)  
15.5  
NA  
NA  
E
Current  
Flooded (or wet)  
20% Ah  
Gel  
AGM  
I
I
I
Bulk Current (ADC)  
20% Ah  
2% Ah  
NA  
20% Ah  
2% Ah  
NA  
B
H
E
Absorption Exit Current (ADC)  
Equalize Current (ADC)  
2% Ah  
10% Ah  
Time  
Flooded (or wet)  
Gel  
6
AGM  
6
T  
Absorption Timeout (hours)  
Constant Voltage Absorption Timeout (hours)  
Float Timeout (days)  
6
A
T  
1
1
1
CV  
T  
21  
1
21  
NA  
21  
F
T  
Equalize Timeout (hours)  
NA  
E
The numbers presented in Table B-1 and elsewhere in this guide are base  
numbers only and will vary with factors such as temperature  
compensation and battery type.  
Important: The custom battery factory defaults are the same as for an AGM  
battery.  
Battery Charger Interruption  
If battery charging is interrupted in bulk charge (for example, AC is  
disconnected, or a fault occurs), the unit will return to bulk charge when  
battery charging resumes.  
If battery charging is interrupted in any stage other than bulk, the unit will  
go to float charge when battery charging resumes.  
However, if any of two conditions occur, a new bulk charge cycle is  
initiated when battery charging begins:  
the battery drops below 12.5 VDC for 15 minutes (VF2). The 15  
minute countdown is independent of mode: inverting, bulk charging,  
float charging, for example.  
21 days have passed from the time the charger completed Absorption  
(TF).  
B6  
975-0170-01-01  
 
Terminology  
C
This section provides a glossary of terms and a listing of  
abbreviations used in this guide.  
     
Terminology  
Glossary  
The second stage of three-stage battery charging. Voltage remains  
constant and current reduces as the battery becomes charged. This  
ensures complete charging.  
Absorption Charge  
The type of electrical power supplied by the power utility or an  
AC generator. The unique characteristic of this form of electricity  
is that it reverses direction at regular intervals. For example, 120  
VAC 60 Hz power reverses flow 60 times a second, hence the  
rating 60 Hz (cycles per second).  
Alternating Current (AC)  
Refers to the air temperature around the inverter, which will affect  
its output power.  
Ambient Temperature  
Ampere (Amp)  
A measurement of the flow of electrical current. One amp is equal  
to the current that flows when one volt is acting across the  
resistance of one ohm. (Ohm’s law: I = V/R where I=current,  
V=volts, R=resistance)  
One amp of electrical current flowing for one hour. One way to  
measure the capacity of batteries.  
Ampere Hour  
(Amp Hour/Ah)  
The first stage of three-stage battery charging. Current is supplied  
to the batteries at a constant rate while voltage gradually rises.  
Bulk Charge  
Charger, DC  
A device that is used to replenish the capacity of a battery (its  
“charge”) by supplying DC current to the battery.  
The rate of flow of electrical charge measured in amps.  
Current  
The type of electricity stored in batteries and generated by solar  
electric devices. Current flows in a single direction without  
alternating.  
Direct Current (DC)  
When a function is disabled, it is not allowed to occur and if it is  
occuring, it is terminated. Regardless of other conditions, the  
function will not be activated. For example, even if AC power is  
present, if the charger is disabled, the unit will not charge. The  
charger must be enabled. See “Enable” in the glossary.  
Disable  
Stored energy being released from a battery  
Discharge  
Dual Input  
The dual input has two line inputs, one neutral and one ground.  
The voltage between each line and the neutral is 120 VAC. The  
voltage between the two line inputs is 0 VAC. (Unlike the split  
phase type, the two lines are in phase, not out of phase, with each  
other.)  
C2  
975-0170-01-01  
     
Terminology  
These loads are those that run off a DC electrical system (battery).  
DC Loads  
A few examples of DC loads are pumps, lights, fans, power vents,  
toilet, inverters, and some water heaters. DC loads rely on the  
batteries for power.  
The liquid found inside storage batteries. Electrolyte is a  
conductive medium in which the flow of electricity takes place. In  
lead-acid batteries, the electrolyte is an acid-water mixture.  
Electrolyte  
Enable  
When a function is enabled, it is allowed to occur but other  
conditions may have to be met before the function is activated or  
turned on. For example, the charger function on the RS3000 may  
be enabled, but it will not charge unless qualified AC power is  
present.  
The third stage of three-stage battery charging. After batteries  
reach full charge, charging voltage is reduced to a lower level to  
prevent gassing and to prolong battery life. This stage is often  
referred to as a maintenance charge. Rather than charging a  
battery, it keeps an already-charged battery from discharging while  
providing load current.  
Float Charge  
Hertz (Hz)  
The frequency, or number of times per second, that the flow of AC  
electricity reverses itself. Also referred to as cycles per second  
(see alternating current).  
The amount of electrical current drawn from the battery to keep an  
inverter running without a load.  
Idle Current  
TVs, VCRs, stereos, computers, and electric motors (power tools,  
vacuum cleaners, for example) are examples of inductive loads  
which surge on start up. They require a high startup current  
compared to a resistive load such as a toaster or a coffee pot.  
Inductive Loads  
A device that converts DC power to AC power.  
Inverter  
An LED is a type of solid-state lamp used to display various status  
functions.  
Light Emitting Diode  
(LED)  
Any device that consumes electricity in order to operate.  
Appliances, tools, and lights are examples of electrical loads.  
There are different types of loads such as AC loads and DC loads.  
Load  
A control circuit that minimizes the flow of electricity from  
batteries to the inverter when battery voltage drops below a  
determined level.  
Low Battery Protection  
National Electric Code  
The electrical wiring and installation code used in the United  
States (NFPA 70).  
975-0170-01-01  
C3  
 
Terminology  
A control circuit designed to protect a device (wire, inverter or  
charger, for example) from loads exceeding its capacity. A fuse,  
for example, is an over-current protection device. All Xantrex  
inverters have internal circuitry to protect themselves from  
overload/over-current conditions.  
Overload/Over-current  
Protection  
A group of electrical devices, such as batteries or PV modules,  
wired together to increase current, while voltage remains constant.  
Two 100 amp-hour 12 VDC batteries wired in parallel form a 200  
amp-hour 12 VDC battery bank.  
Parallel Wiring  
Toasters, coffee pots, and incandescent lights are examples of  
resistive loads. They use a resistive heater element to generate heat  
or light.  
Resistive Loads  
Series Wiring  
A group of electrical devices, such as batteries or PV modules,  
wired together to increase voltage, while current remains constant.  
Two 100 amp-hour 12 VDC batteries wired in series form a 100  
amp hour 24 VDC battery bank.  
The standard waveform of electric utility AC power. A sine wave  
is a rounded, smooth waveform alternating above and below zero  
volts.  
Sine Wave  
Split Phase  
The split phase has two line inputs, one neutral and one ground.  
The voltage between each line and neutral is 120 VAC. The  
voltage between the two lines is 240 VAC. (The two lines are 180  
degrees out of phase with each other.) The voltage between the  
neutral and the ground is approximately 0 VAC.  
The amount of current an inverter can deliver for short periods of  
time. Most electric motors draw up to six to ten times their rated  
current when starting. An inverter will “surge” to meet these  
motor-starting requirements. Most Xantrex inverters have surge  
capacities at least twice their continuous ratings.  
Surge Capacity  
A switch that selects between two sources of AC power and  
isolates those sources from each other.  
Transfer Switch, AC  
Volts  
A unit of measure of electric potential. Voltage is often explained  
using a liquid analogy, comparing water pressure to voltage. For  
example, a high pressure hose would be similar to high voltage.  
A measure of true electrical power. Watts are calculated by  
multiplying volts times amps for resistive loads. For non-resistive  
loads, watts are calculated by multiplying volts times amps times  
power factor. (P=I × V, where P=power, I=current, V=volts)  
Watt(s)  
C4  
975-0170-01-01  
 
Terminology  
Electrical power measured over a period of time. One watt hour of  
Watt Hour (W/h)  
electricity is equivalent to one watt of power being consumed for  
one hour. A 3-watt light operated for 2 hours would consume  
6 Wh (watt hour) of electricity.  
A measure of the “apparent” power equivalent to the true power  
(watts) in resistive loads, but exceeding watts in non-resistive  
loads. VA is calculated by multiplying volts times amps without  
using power factor.  
Volt-amps  
(VA)  
975-0170-01-01  
C5  
Terminology  
Abbreviations  
Abbreviation Full name  
Definition  
A
Ampere (Amps)  
Alternating Current  
See Glossary.  
See Glossary.  
AC  
AGM  
Absorbed Glass Mat A type of battery in which the electrolyte or battery fluid is  
contained in glass-fibre mats between battery plates.  
Ah  
Ampere hour (amp  
hour)  
See Glossary.  
ASC  
AWG  
BTS  
Authorized Service  
Center  
ASC’s are service centers affiliated with Xantrex to provide repair  
service.  
American Wire Gauge A standard used for indicating wire size: the larger the AWG  
number, the smaller the wire size.  
Battery Temperature A BTS is a device attached to a battery and inverter/charger to  
Sensor  
ensure that charge delivered to the batteries is adjusted according  
to their actual temperatures.  
CEC  
CSA  
Canadian Electric  
Code  
The CEC is the Canadian national electrical code providing the  
industry standard for safe electrical installations.  
Canadian Standards A standards writing and certification body which tests and  
Association  
approves products for regulatory compliance to international  
standards.  
DC  
Direct Current  
See Glossary.  
EMC  
Electro-Magnetic  
Compatibility  
The ability of an electronic device to operate without causing or  
suffering from radio frequency interference.  
FCC  
Federal  
Communications  
Commission  
US agency which regulates EMC and television, radio, wireless,  
cable, and satellite in the US.  
GFCI  
Ground Fault Circuit GFCI is a device that protects against electric shock. A GFCI trips  
Interrupter  
and stops the flow of power when leakage current is detected.  
Hz  
Hertz  
See Glossary.  
LED  
mA  
NEC  
Light Emitting Diode See Glossary/  
Milliamps  
1/1000 of an amp  
See Glossary.  
National Electric  
Code  
RMA  
RMS  
Return Material  
Authorization  
The authorization provided to a customer to return materials to  
Xantrex.  
Root Mean Square  
A measure of the effective value of an alternating (AC) voltage,  
current or power.  
C6  
975-0170-01-01  
 
Terminology  
Abbreviation Full name  
Definition  
SOC  
UL  
State of charge  
Indicates the quantity of electrical energy stored inside a battery.  
Underwriters  
Laboratory  
A standards writing and certification body which tests and  
approves products for regulatory compliance to international  
standards.  
THD  
VAC  
Total Harmonic  
Distortion  
A measure of how pure or clean a waveform is.  
Volts Alternating  
Current  
See Alternating Current in Glossary.  
VDC  
W
Volts Direct Current See Direct Current in Glossary.  
Watts  
See Glossary.  
°C  
Degrees Celsius  
Temperature system that uses 0 °C for the freezing point and  
100 °C for the boiling point of water.  
°F  
Degrees Fahrenheit  
Temperature system that uses 32 °F as the freezing point and  
212 °F as the boiling point of water.  
975-0170-01-01  
C7  
C8  
Warranty and Return  
Information  
Warranty  
What does this warranty cover? This Limited Warranty is provided by Xantrex Technology, Inc.  
("Xantrex") and covers defects in workmanship and materials in your RS3000 Sine Wave Inverter/Charger. This  
warranty period lasts for 36 months from the date of purchase at the point of sale to you, the original end user  
customer. You require proof of purchase to make warranty claims.  
This Limited Warranty is transferable to subsequent owners but only for the unexpired portion of the Warranty  
Period. Subsequent owners also require proof of purchase.  
What will Xantrex do? Xantrex will, at its option, repair or replace the defective product free of charge,  
provided that you notify Xantrex of the product defect within the Warranty Period, and provided that Xantrex  
through inspection establishes the existence of such a defect and that it is covered by this Limited Warranty.  
Xantrex will, at its option, use new and/or reconditioned parts in performing warranty repair and building  
replacement products. Xantrex reserves the right to use parts or products of original or improved design in the  
repair or replacement. If Xantrex repairs or replaces a product, its warranty continues for the remaining portion of  
the original Warranty Period or 90 days from the date of the return shipment to the customer, whichever is greater.  
All replaced products and all parts removed from repaired products become the property of Xantrex.  
Xantrex covers both parts and labor necessary to repair the product, and return shipment to the customer via a  
Xantrex-selected non-expedited surface freight within the contiguous United States and Canada. Alaska and  
Hawaii are excluded. Contact Xantrex Customer Service for details on freight policy for return shipments outside  
of the contiguous United States and Canada.  
How do you get service? If your product requires troubleshooting or warranty service, contact your merchant.  
If you are unable to contact your merchant, or the merchant is unable to provide service, contact Xantrex directly  
at:  
Telephone: 1 800 670 0707 (toll free North America)  
1 360 925 5097 (direct)  
Fax:  
1 800 994 7828 (toll free North America)  
1 360 925 5143 (direct)  
Email:  
Direct returns may be performed according to the Xantrex Return Material Authorization Policy described in your  
product manual. For some products, Xantrex maintains a network of regional Authorized Service Centers. Call  
Xantrex or check our website to see if your product can be repaired at one of these facilities.  
What proof of purchase is required? In any warranty claim, dated proof of purchase must accompany the  
product and the product must not have been disassembled or modified without prior written authorization by  
Xantrex.  
Proof of purchase may be in any one of the following forms:  
The dated purchase receipt from the original purchase of the product at point of sale to the end user, or  
The dated dealer invoice or purchase receipt showing original equipment manufacturer (OEM) status, or  
The dated invoice or purchase receipt showing the product exchanged under warranty  
975-0170-01-01  
WA1  
       
Warranty and Return  
What does this warranty not cover? This Limited Warranty does not cover normal wear and tear of the  
product or costs related to the removal, installation, or troubleshooting of the customer's electrical systems.  
This warranty does not apply to and Xantrex will not be responsible for any defect in or damage to:  
a) the product if it has been misused, neglected, improperly installed, physically damaged or altered, either  
internally or externally, or damaged from improper use or use in an unsuitable environment;  
b) the product if it has been subjected to fire, water, generalized corrosion, biological infestations, or input  
voltage that creates operating conditions beyond the maximum or minimum limits listed in the Xantrex  
product specifications including high input voltage from generators and lightning strikes;  
c) the product if repairs have been done to it other than by Xantrex or its authorized service centers (hereaf-  
ter "ASCs");  
d) the product if it is used as a component part of a product expressly warranted by another manufacturer;  
e) the product if its original identification (trade-mark, serial number) markings have been defaced, altered,  
or removed.  
Disclaimer  
Product  
THIS LIMITED WARRANTY IS THE SOLE AND EXCLUSIVE WARRANTY PROVIDED BY XANTREX IN CONNECTION  
WITH YOUR XANTREX PRODUCT AND IS, WHERE PERMITTED BY LAW, IN LIEU OF ALL OTHER WARRANTIES,  
CONDITIONS, GUARANTEES, REPRESENTATIONS, OBLIGATIONS AND LIABILITIES, EXPRESS OR IMPLIED,  
STATUTORY OR OTHERWISE IN CONNECTION WITH THE PRODUCT, HOWEVER ARISING (WHETHER BY CONTRACT,  
TORT, NEGLIGENCE, PRINCIPLES OF MANUFACTURER'S LIABILITY, OPERATION OF LAW, CONDUCT, STATEMENT OR  
OTHERWISE), INCLUDING WITHOUT RESTRICTION ANY IMPLIED WARRANTY OR CONDITION OF QUALITY,  
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. ANY IMPLIED WARRANTY OF MERCHANTABILITY  
OR FITNESS FOR A PARTICULAR PURPOSE TO THE EXTENT REQUIRED UNDER APPLICABLE LAW TO APPLY TO THE  
PRODUCT SHALL BE LIMITED IN DURATION TO THE PERIOD STIPULATED UNDER THIS LIMITED WARRANTY.  
IN NO EVENT WILL XANTREX BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL  
DAMAGES, LOSSES, COSTS OR EXPENSES HOWEVER ARISING WHETHER IN CONTRACT OR TORT INCLUDING  
WITHOUT RESTRICTION ANY ECONOMIC LOSSES OF ANY KIND, ANY LOSS OR DAMAGE TO PROPERTY, ANY  
PERSONAL INJURY, ANY DAMAGE OR INJURY ARISING FROM OR AS A RESULT OF MISUSE OR ABUSE, OR THE  
INCORRECT INSTALLATION, INTEGRATION OR OPERATION OF THE PRODUCT.  
Exclusions  
If this product is a consumer product, federal law does not allow an exclusion of implied warranties. To the  
extent you are entitled to implied warranties under federal law, to the extent permitted by applicable law they  
are limited to the duration of this Limited Warranty. Some states and provinces do not allow limitations or  
exclusions on implied warranties or on the duration of an implied warranty or on the limitation or exclusion of  
incidental or consequential damages, so the above limitation(s) or exclusion(s) may not apply to you. This  
Limited Warranty gives you specific legal rights. You may have other rights which may vary from state to  
state or province to province.  
Warning: Limitations On Use  
Please refer to your product manual for limitations on uses of the product.  
SPECIFICALLY, PLEASE NOTE THAT THE RS3000 SINE WAVE INVERTER/CHARGER SHOULD NOT BE  
USED IN CONNECTION WITH LIFE SUPPORT SYSTEMS OR OTHER MEDICAL EQUIPMENT OR  
DEVICES. WITHOUT LIMITING THE GENERALITY OF THE FOREGOING, XANTREX MAKES NO  
WA2  
975-0170-01-01  
Warranty and Return  
REPRESENTATIONS OR WARRANTIES REGARDING THE USE OF THE XANTREX RS3000 SINE  
WAVE INVERTER/CHARGER IN CONNECTION WITH LIFE SUPPORT SYSTEMS OR OTHER MEDICAL  
EQUIPMENT OR DEVICES.  
Please note that the RS3000 Sine Wave Inverter/Charger is not intended for use as an uninterruptible power  
supply and Xantrex makes no warranty or representation in connection with any use of the product for such  
purposes.  
Return Material Authorization Policy  
Before returning a product directly to Xantrex you must obtain a Return Material Authorization (RMA)  
number and the correct factory "Ship To" address. Products must also be shipped prepaid. Product shipments  
will be refused and returned at your expense if they are unauthorized, returned without an RMA number  
clearly marked on the outside of the shipping box, if they are shipped collect, or if they are shipped to the  
wrong location.  
When you contact Xantrex to obtain service, please have your instruction manual ready for reference and be  
prepared to supply:  
The serial number of your product  
Information about the installation and use of the unit  
Information about the failure and/or reason for the return  
A copy of your dated proof of purchase  
Record these details on page WA–4.  
Return Procedure  
1. Package the unit safely, preferably using the original box and packing materials. Please ensure that your  
product is shipped fully insured in the original packaging or equivalent. This warranty will not apply  
where the product is damaged due to improper packaging.  
2. Include the following:  
The RMA number supplied by Xantrex Technology, Inc. clearly marked on the outside of the box.  
A return address where the unit can be shipped. Post office boxes are not acceptable.  
A contact telephone number where you can be reached during work hours.  
A brief description of the problem.  
3. Ship the unit prepaid to the address provided by your Xantrex customer service representative.  
If you are returning a product from outside of the USA or Canada In addition to the above, you  
MUST include return freight funds and are fully responsible for all documents, duties, tariffs, and deposits.  
If you are returning a product to a Xantrex Authorized Service Center (ASC) A Xantrex return  
material authorization (RMA) number is not required. However, you must contact the ASC prior to returning  
the product or presenting the unit to verify any return procedures that may apply to that particular facility.  
975-0170-01-01  
WA3  
   
Warranty and Return  
Out of Warranty Service  
If the warranty period for your RS3000 Sine Wave Inverter/Charger has expired, if the unit was damaged by  
misuse or incorrect installation, if other conditions of the warranty have not been met, or if no dated proof of  
purchase is available, your inverter may be serviced or replaced for a flat fee.  
To return your RS3000 Sine Wave Inverter/Charger for out of warranty service, contact Xantrex Customer  
Service for a Return Material Authorization (RMA) number and follow the other steps outlined in “Return  
Payment options such as credit card or money order will be explained by the Customer Service  
Representative. In cases where the minimum flat fee does not apply, as with incomplete units or units with  
excessive damage, an additional fee will be charged. If applicable, you will be contacted by Customer Service  
once your unit has been received.  
Information About Your System  
As soon as you open your RS3000 Sine Wave Inverter/Charger package, record the following information and  
be sure to keep your proof of purchase.  
_________________________________  
_________________________________  
_________________________________  
Serial Number  
Purchased From  
Purchase Date  
If you need to contact Customer Service, please record the following details before calling. This information  
will help our representatives give you better service.  
__________________________________  
__________________________________  
__________________________________  
__________________________________  
Type of installation (e.g. RV, truck)  
Length of time inverter/charger has been installed  
Battery/battery bank size  
Battery type (e.g. flooded (or wet), sealed gel cell,  
AGM)  
__________________________________  
__________________________________  
__________________________________  
__________________________________  
DC wiring size and length  
Description of indicators on front panel  
Appliances operating when problem occurred  
Description of problem  
______________________________________________________________________________________  
Any fault or warning displayed if using a System  
Control Panel?  
WA4  
975-0170-01-01  
                     
Index  
configure RS3000 menu  
advanced 3–18  
basic 3–12  
Customer Service  
email v  
fax number v  
phone number v  
preparing to call WA–4  
A
absorption charge B–3  
AC knockout  
illustrated 1–9  
locations of 1–7  
AC wiring compartment access panel 1–7  
AGM (absorbed glass mat) batteries B–2  
B
D
batteries  
DC terminal covers 1–11  
DC terminals  
described 1–10  
negative 1–10  
positive 1–10  
dead battery charging 1–4  
Down arrow button 2–4  
dual input  
charging 1–3  
defined C–2  
AGM (absorbed glass mat) B–2  
custom B–2  
flooded B–2  
battery damage, risk of B–2  
battery temperature sensor  
charger operation 2–9  
features 1–11  
illustrated 1–11  
dual network jacks, described 1–10  
battery temperature sensor jack, described 1–9  
battery types, description of B–2  
bulk charge B–3  
E
electronic protection 1–6  
Enter button 2–4  
C
equalization  
precharging 3–15  
recommended frequency 2–10  
terminating 2–11  
equalization charge B–4  
Ethernet incompatibility 1–9  
charge algorithm definitions B–5  
charge algorithm graph B–5  
charge algorithm stages  
three-stage B–2  
two-stage B–5  
charger mode A–6  
charger operation, operating limits 2–12  
charging  
battery temperature sensor 1–4  
built-in charge formulas 1–4  
dead battery 1–4  
described 1–4  
equalization 1–4  
load management 1–4  
charging formulas. See charging algorithms. B–2  
chassis ground point, described 1–10  
configurable settings  
how to select and adjust 3–8  
configuration sub-menus 3–18  
F
fan  
bottom 1–7  
operation A–5  
top exhaust fan 1–7  
top intake fan 1–7  
fault  
automatic 4–2  
escalating automatic 4–2  
 
Index  
fault types 4–2  
faults and warnings 4–2  
FCC  
M
mounting flanges, described 1–9  
P
compliance A–5  
regulations x  
power save mode  
firmware revision number, viewing 2–5  
float charge B–4  
Force Charge, defined 3–23  
front panel  
described 1–7  
illustrated 1–7  
entering and exiting 2–17  
when to use 2–16  
power share, described 2–12  
proof of purchase WA–4  
protection features 1–6  
purchase date WA–4  
front panel light  
Absorption 2–14  
Charger ON 2–13  
Equalize 2–14  
External AC 2–13  
Fault 2–13  
Float 2–14  
R
regulatory approvals A–5  
RS3000 advanced menu, selecting 3–6  
RS3000 basic menu  
example of 3–5  
returning to 3–7  
selecting 3–5  
RS3000 device menu, described 3–10  
RS3000 menu structure, illustrated 3–9  
Inverter ON 2–13  
Low Battery 2–13  
Network 2–13  
front panel lights and buttons  
described 1–8  
illustrated 1–8  
S
safe mode  
caution 2–17  
exiting 2–19  
H
safety instructions vii  
Select Device menu, viewing 3–4  
sense below  
configuring 3–21  
sense interval  
configuring 3–22  
serial number WA–4  
side panel features  
described 1–9  
hibernate mode 2–20  
bringing system out of 2–20  
when to use 2–20  
I
Information about Your System form WA–4  
invert power derating A–6  
inverter  
purchase date WA–4  
serial number WA–4  
inverter operation, operating limits 2–7  
inverting, described 1–3  
illustrated 1–9  
specifications  
charger A–3  
environmental A–4  
general A–4  
inverter A–2  
physical A–5  
transfer A–4  
L
load sense  
configuring 3–19  
split phase  
charging 1–3  
defined C–4  
IX2  
975-0170-01-01  
Index  
system button  
described 2–15  
illustrated 2–15  
system check  
charging and inverting 2–5  
System Control Panel  
buttons described 2–3  
function of 2–2  
illustrated 2–15  
using 2–3  
system menu map 3–3  
system mode  
operate 2–16  
power save 2–16  
system screen, example of 3–4  
T
three-stage charging algorithm B–2  
three-stage charging profile, illustrated B–2  
troubleshooting  
fault messages 4–11  
general guidelines 4–5  
motor loads 4–17  
problem loads 4–17  
resistive loads 4–17  
warning messages 4–7  
U
Up arrow button 2–4  
W
warning  
automatic 4–3  
definition 2–14  
manual 4–3  
types 4–3  
warranty  
out of warranty service WA–4  
terms and conditions WA–1  
web site v  
X
Xanbus system  
described 1–5  
illustrated 1–5  
Xanbus-enabled 1–5  
Xantrex, web site v  
975-0170-01-01  
IX3  
IX-4  
Xantrex Technology Inc.  
1 800 670 0707 Tel toll free NA  
1 360 925 5097 Tel direct  
1 800 994 7828 Fax toll free NA  
1 360 925 5143 Fax direct  
customerservice@xantrex.com  
www.xantrex.com  
975-0170-01-01  
Printed in China  

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