Xantrex Technology 10 User Manual

  
Owners Manual  
Freedom 10  
Inverter/Charger  
Freedom 10 Inverter/Charger  
Owners Manual  
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  
Freedom 10 Inverter/Charger is a trademark of Xantrex International. Xantrex is a registered trademark 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  
Freedom 10 Inverter/Charger Owner’s Manual © August 2005 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  
August 2005 Revision A  
Part Number  
975-0251-01-01  
Contact Information  
Telephone: 34 93 470 5330  
Fax:  
34 93 473 6093  
Email:  
Web:  
About This Manual  
Purpose  
The purpose of this Owner’s Manual is to provide explanations and procedures for  
installing, operating, maintaining, and troubleshooting the Freedom 10 Inverter/  
Charger.  
Scope  
The Manual provides safety guidelines, detailed planning and setup information,  
procedures for installing the inverter, as well as information about operating and  
troubleshooting the unit. It does not provide details about particular brands of  
batteries. You need to consult individual battery manufacturers for this  
information.  
Audience  
The Manual is intended for anyone who needs to install and operate the Freedom  
10 Inverter/Charger. Installers should be certified technicians or electricians.  
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 unit or other  
equipment.  
Important: These notes describe things that are important for you to know, but not as  
serious as a caution or warning.  
Related Information  
You can find more information about Xantrex Technology Inc. as well as its  
products and services at www.xantrex.com  
975-0251-01-01  
iii  
iv  
Important Safety Instructions  
WARNING  
This chapter contains important safety and operating instructions. Read and keep this  
Owner’s Manual for future reference.  
Important: General safety information for installation and operation is contained  
throughout this manual where they apply and are not included In this summary.  
1. Before installing and using the Freedom 10 Inverter/Charger, read all  
instructions and cautionary markings on the Freedom 10 Inverter/Charger, the  
batteries, and all appropriate sections of this guide.  
2. For continued protection against the possibility of fire, replace the fuse only  
with a fuse of the specified voltage, current, and type ratings.  
3. To avoid damage, operate the equipment only within the specified AC (mains)  
and DC (battery) voltages.  
4. Do not expose the Freedom 10 Inverter/Charger to rain, snow, spray, or bilge  
water. To reduce risk of fire hazard, do not cover or obstruct the ventilation  
openings. Do not install the Freedom 10 Inverter/Charger in a zero-clearance  
compartment. Overheating may result.  
5. Use only attachments recommended or sold by the manufacturer. Doing  
otherwise may result in a risk of fire, electric shock, or injury to persons.  
6. 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 Freedom  
10 Inverter/Charger with damaged or substandard wiring.  
7. Do not operate the Freedom 10 Inverter/Charger if it has received a sharp  
blow, been dropped, or otherwise damaged in any way. If the Freedom 10  
Inverter/Charger is damaged, see the Warranty section.  
8. Do not disassemble the Freedom 10 Inverter/Charger. It contains no user-  
serviceable parts. See Warranty for instructions on obtaining service.  
Attempting to service the Freedom 10 Inverter/Charger yourself may result in  
a risk of electrical shock or fire. Internal capacitors remain charged after all  
power is disconnected.  
9. To reduce the risk of electrical shock, disconnect both AC and DC power  
from the Freedom 10 Inverter/Charger before attempting any maintenance or  
cleaning or working on any circuits connected to the Freedom 10 Inverter/  
Charger. Turning off controls will not reduce this risk.  
10. The Freedom 10 Inverter/Charger must be provided with an equipment-  
grounding conductor connected to the AC input ground.  
975-0251-01-01  
v
 
Safety  
Explosive gas precautions  
WARNING: Explosion hazard  
1. Working in the vicinity of lead-acid batteries is dangerous. Batteries generate  
explosive gases during normal operation. Therefore, you must read this guide  
and follow the instructions exactly before installing or using your Freedom 10  
Inverter/Charger.  
2. This equipment contains components that tend to produce arcs or sparks. To  
prevent fire or explosion, do not install the Freedom 10 Inverter/Charger in  
compartments containing batteries or flammable materials, or in locations that  
require ignition-protected equipment. This includes any space containing  
gasoline-powered machinery, fuel tanks, as well as joints, fittings, or other  
connections between components of the fuel system.  
3. To reduce the risk of battery explosion, follow these instructions and those  
published by the battery manufacturer and the manufacturer of the equipment  
in which the battery is installed.  
Precautions When Working With Batteries  
WARNING: Explosion or fire hazard  
1. Follow all instructions published by the battery manufacturer and the  
manufacturer of the equipment in which the battery is installed.  
2. Make sure the area around the battery is well ventilated.  
3. Never smoke or allow a spark or flame near the engine or batteries.  
4. Use caution to reduce the risk or dropping a metal tool on the battery. It could  
spark or short circuit the battery or other electrical parts and could cause an  
explosion.  
5. Remove all metal items, like rings, bracelets, and watches when working with  
lead-acid batteries. Lead-acid batteries produce a short circuit current high  
enough to weld metal to skin, causing a severe burn.  
6. Have someone within range of your voice or close enough to come to your aid  
when you work near a lead-acid battery.  
7. Have plenty of fresh water and soap nearby in case battery acid contacts skin,  
clothing, or eyes.  
vi  
975-0251-01-01  
Safety  
8. Wear complete eye protection and clothing protection. Avoid touching your  
eyes while working near batteries.  
9. If battery acid contacts skin or clothing, wash immediately with soap and  
water. If acid enters your eye, immediately flood it with running cold water  
for at least twenty minutes and get medical attention immediately.  
10. If you need to remove a battery, always remove the ground terminal from the  
battery first. Make sure all accessories are off so you don’t cause a spark.  
Precautions for Using Rechargeable Appliances  
CAUTION: Equipment damage  
Most rechargeable battery-operated equipment uses a separate charger or  
transformer that is plugged into an AC receptacle and produces a low voltage  
charging output.  
Some chargers for small rechargeable batteries can be damaged if connected to the  
Freedom 10 Inverter/Charger. Do not use the following with the Freedom 10  
Inverter/Charger:  
Small battery-operated appliances like flashlights, razors, and night lights that  
can be plugged directly into an AC receptacle to recharge.  
Some chargers for battery packs used in power hand tools. These affected  
chargers display a warning label stating that dangerous voltages are present at  
the battery terminals.  
Important: if you are unsure about using your rechargeable appliance with the  
Freedom 10 Inverter/Charger, contact the equipment manufacturer to find out if there are  
high voltages at the battery terminals or if the appliance incorporates the use of  
transformers.  
975-0251-01-01  
vii  
viii  
Contents  
Important Safety Instructions - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -v  
975-0251-01-01  
ix  
Contents  
Freedom 10 Power Switch - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–2  
Warranty and Return Information - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - WA–1  
x
975-0251-01-01  
Introduction  
1
Chapter 1 describes the features and functions of the Freedom 10  
Inverter/Charger.  
   
Introduction  
Introduction  
This Owner’s Manual describes the Xantrex Freedom 10 Inverter/Charger. This  
unit performs four distinct functions:  
1. DC to AC power inverting  
2. Automatic transfer switching between inverter power and incoming AC  
power  
3. Three-stage automatic battery charging plus manual battery equalizing  
4. AC to DC power converter.  
The inverter provides 1,000 watts of voltage and frequency-regulated AC power  
from a deep-cycle battery bank. The output is a modified sine wave and is  
compatible with virtually all consumer appliances. An idle circuit reduces battery  
power consumption when the inverter is unloaded. There is a low battery cutout  
circuit and considerable momentary surge power is available for starting electric  
motors. High efficiency ensures the longest possible battery life between  
recharges.  
Hardware Included.  
Figure 1-1 Freedom 10 Inverter/Charger  
Transfer switch  
Battery charging  
The transfer switch allows the Freedom 10 to be connected to an external AC  
source. Some of the external AC power is used to operate the battery charger, the  
rest is switched through the unit to the output. Thus, the Freedom 10 operates as a  
self-contained backup power system just by adding batteries. The power sharing  
feature constantly senses the AC current being used by the battery charger and the  
appliances connected to the output, and automatically reduces battery charger  
power consumption if usage exceeds the input circuit breaker rating.  
The Freedom 10 battery charger is electronically controlled and rated at  
50 amps DC (25 amps DC for 24-volt systems). It is designed to rapidly and  
optimally recharge either wet or gel cell deep-cycle batteries. Battery charging is  
accomplished in three automatic stages: Bulk Charge, Acceptance, and Float  
Charge. In addition, using the remote control, a manually engaged equalizing  
charge cycle is possible.  
1–2  
975-0251-01-01  
 
Things You Should Know  
DC power supply  
With an external AC source connected, the Freedom 10 charger also serves the  
functions of an AC to DC converter to supply all of the DC loads that are  
connected to the battery.  
Simple, automatic operation is made possible by the microprocessor that is the  
brain of the Freedom 10. In most cases, the unit is left on and no attention or  
maintenance is required.  
Optional remote  
panel  
Two optional remote control panels are available for the Freedom 10—one for  
12 V models and one for 24 V models. These remote control panels provide a  
power switch, system status LEDs, DC volts and DC amps LED bar graphs. In  
addition, the remote control panel allows adjustment of the following settings:  
three-stage or equalize charging  
temperature  
battery type  
charger mode  
idle sensitivity  
power sharing.  
Things You Should Know  
WARNING: Unexpected operation  
A transfer between inverter and charge modes of operation may temporarily take place  
when the product is subjected to electrostatic discharge.  
Intended Use  
The Freedom 10 Inverter/Charger is intended:  
as a DC to AC inverter/battery charger  
for use in recreational vehicles, recreational marine vehicles, and residential  
solar applications  
to be permanently installed, not portable  
to be used with a DC fuse as described in the installation section of this  
manual.  
Circuit Breaker Protection  
The 15 amp circuit breaker on the front of the unit protects against sustained  
inverter overloads. The breaker is reset by pressing the button. The 15 amp circuit  
breaker protects the incoming AC circuit which is transferred through to the loads,  
and feeds the battery charger.  
975-0251-01-01  
1–3  
     
Introduction  
Electronic Protection  
Fast-acting electronic circuits protect the inverter from extreme overloads, low  
and high battery voltage and over-temperature. They can be reset by cycling the  
power switch off and on. The fault condition must be eliminated before reset will  
occur. For example, remove the overload, recharge the batteries, or allow the unit  
Inverter ldle Circuit  
The inverter idle circuit is an automatic energy saving feature that reduces battery  
power consumption when no load is present. Response from idle is instant. In  
most cases, the operation of the idle circuit is not noticeable. Using the remote  
control panel allows the idle circuit sensitivity to be adjusted.  
Power Sharing  
The Freedom 10 can automatically reduce the battery charger output, and  
therefore the AC power consumption, if appliances are turned on that threaten to  
trip the incoming circuit breaker. This feature can be adjusted using the remote  
control panel. This feature is set to protect a 15-amp source by default.  
1–4  
975-0251-01-01  
     
Installation  
2
Chapter 2 contains information and procedures to install the Freedom  
10 Inverter/Charger.  
Topics in this chapter include:  
   
Installation  
Installation Precautions  
WARNING: Fire or explosion hazard  
This equipment is not ignition protected and employs components that tend to produce  
arcs or sparks. To reduce the risk of fire or explosions, do not install in compartments  
containing batteries or flammable materials or areas in which ignition-protected  
equipment is required.  
WARNING: Shock hazard and equipment failure  
To reduce the risk of electric shock and prevent premature failure due to corrosion, do not  
mount where exposed to rain or spray.  
WARNING: Fire hazard  
To prevent fire, do not obstruct ventilation openings. Do not mount in a zero clearance  
compartment—overheating may result.  
WARNING: Shock hazard  
For continued protection against risk of electric shock use only the residual current circuit  
breaker (RCCB) type receptacles. Other types may fail to operate properly when  
connected to this inverter, resulting in a potential shock hazard.  
WARNING: Shock hazard  
Both AC and DC voltage sources are teminated inside this equipment.  
Each circuit must be individually opened before servicing. When a solar array is exposed  
to light it supplies DC voltage to the battery and this equipment.  
WARNING: Shock hazard  
Do not remove cover—no user serviceable parts inside. Refer servicing to qualified  
service personnel.  
Important: The output of this device is not sinusoidal. It has a maximum total  
harmonic distortion of 47% and a maximum single harmonic of 34%.  
Application Information The Freedom 10 is provided with integral electronic  
protection against AC and DC overloads.  
Appropriate Applications  
The Freedom 10 is appropriate for installation in recreational vehicle (RV),  
residential solar installations, and marine applications. The installation  
instructions for each application will be discussed separately. Refer to the separate  
installation guide for typical installation examples.  
2–2  
975-0251-01-01  
   
Installation Precautions  
Key Installation Points  
Observe proper polarity when connecting batteries. Reverse DC polarity  
will result in damage to the Freedom 10.  
Do not backfeed the AC output of the inverter with incoming AC power.  
Double check all aspects of your AC wiring for the possibility of backfeeding.  
A backfeed will cause significant damage to your unit.  
Do not connect the AC input to the AC output. In effect, this would be  
plugging the battery charger into the inverter. This could occur if the Freedom  
10 is connected to the entire leg of a circuit breaker panel, then a circuit  
breaker on that leg is used to feed the battery charger. This will cause the unit  
to oscillate on and off when the unit is in inverter mode.  
Always use properly sized wire and connectors, keeping in mind that  
considerable amperage flows in the DC circuit. Fusing the positive DC cable  
is required.  
Keep the Freedom 10 out of the elements and out of direct contact with  
water. Remember that the unit is a piece of electronic equipment and treat it  
accordingly.  
Mount the unit as close to the batteries as possible but not in the presence  
of flammable fumes or in an enclosed battery compartment.  
Do not bolt the unit down until the AC, remote, and ground wiring is  
completed.  
975-0251-01-01  
2–3  
 
Installation  
Recreational Vehicle Installation  
Before installing the inverter in a recreational vehicle, you must consider factors  
such as:  
Location  
The following factors should be considered when planning to install the  
Freedom 10.  
1. The chassis ground bonding lug is located on the bottom of the unit. Be  
sure to make this connection before bolting the unit down.  
For future use  
May be used with  
optional TC 2+2  
(Battery Temp.  
Sensor)  
Remote Jack  
Chassis Ground  
Bonding Lug  
Figure 2-1 Ground, AC, and Remote Connection Locations  
2. Always mount the unit in a dry area, out of direct contact with water or  
spray.  
3. You may mount the unit horizontally (on a shelf) or vertically (on a wall or  
bulkhead). If mounted vertically, you must orient the unit so the switch and  
circuit breakers are facing up and the fan and battery cables are facing down.  
2–4  
975-0251-01-01  
   
Recreational Vehicle Installation  
4. Allow 13 cm (minimum) of clearance around the unit and allow for a supply  
of fresh air to the cooling fan. Do not block any of the vents or louvers. The  
fan pulls air from outside the unit. It blows the air across the internal  
components, particularly the transformer and heat sinks, then out the side  
vents.  
5. The mounting location should be as close to the batteries as possible. The  
battery cables can be extended, however each cable must not be over 3.04 m  
in total length from the inverter to battery terminals. Do not use the RV  
chassis as a negative conductor.  
WARNING: Fire hazard and equipment damage  
Do not mount the unit in an enclosed battery compartment. Take precautions to keep road  
dirt and spray out of the unit.  
Grounding  
For safety purposes, the chassis of the Freedom 10 must be connected to your  
AC ground system. The chassis ground bonding lug is located on the bottom of  
the unit. This connector can accept two wires. The first is used to connect the unit  
to AC ground. The second can be used to connect other AC equipment to ground.  
Use 5.0 mm2 ES (Euro Standard) green insulated wire. Strip one end and use a  
screwdriver to secure it to the chassis ground bonding lug. This wire will connect  
to the ground in your AC electrical system, typically the vehicle chassis. Make  
sure the connection is clean and tight.  
This procedure will connect the chassis of your Freedom 10 to AC ground. In  
addition, the AC input and AC output green/yellow wires are connected to chassis  
ground. It is important to connect these wires to the AC ground bus in the circuit  
breaker panel.  
Please note that the battery cables are not connected to ground or the chassis of the  
Freedom 10.  
Neutral Bonding  
For safety purposes, the Freedom 10 internally bonds the blue AC output neutral  
wire to the green/yellow AC ground wire when the unit is OFF or in the inverter  
mode. When incoming AC power is applied and the transfer switch is engaged,  
the internal neutral-to-ground bond is automatically lifted.  
This means that when the RV is in a campground, the grounding system is  
connected to the shore power ground, where neutral and earth ground are bonded  
together. This technique ensures safety in all conditions and conforms to the  
requirements of numerous electrical codes. Refer to other applicable electrical  
codes regarding connections between AC ground and DC ground.  
975-0251-01-01  
2–5  
   
Installation  
AC Wiring  
Use a screwdriver to remove the screws that secure the AC wiring compartment  
Remove these screws  
Wire Nut Connectors  
Figure 2-2 AC Compartment Cover Plate Screws  
Inside you will see that the compartment is divided into two sections, one labeled  
AC INPUT, the other labeled AC OUTPUT. Each side contains three pigtails:  
blue, brown, green/yellow. Wire nut connectors are provided.  
Wire Color  
Description  
Brown  
Hot or Line  
Blue  
Neutral  
Green/Yellow  
Ground  
Solid Green (AC output only)  
Internal output neutral to ground bonding conductor  
Important: At the AC output, the green/yellow and solid green wires are already  
connected together.  
Two AC wiring knockouts are provided on the AC compartment cover plate. After  
removing the knockouts, you can add strain reliefs for additional stability or  
conduit fittings if the wiring will be routed through conduit. Flexible conduit is  
recommended.  
You must use 2.5 mm2 ES copper wire with insulation rated for 60 degrees  
centigrade or higher for both the AC input and AC output.  
2–6  
975-0251-01-01  
   
Recreational Vehicle Installation  
AC Input  
Route the 3-conductor AC input wires through the cover plate knockouts and into  
the AC input compartment. You should have about 15 cm of individually  
insulated brown, blue and green/yellow wire. Strip about 1 cm of insulation off  
each conductor and connect to the Freedom 10 pigtails: brown to brown, blue to  
blue and green/yellow to green/yellow.  
Use the wire nuts provided to make the wire connections.  
AC Output  
Route the 3-conductor AC output wire through the cover plate knockouts and  
connect in the same fashion.  
In addition, if internal output neutral-to-ground bond is not required, remove the  
solid green wire from the green/yellow wires and cap with a wire nut.  
CAUTION: Backfeed damage  
Do not connect incoming AC from any source to the AC output of the inverter. This is  
known as backfeeding and will damage the unit and void the warranty.  
Pull firmly on each connection to test it. These connections are the first thing to  
check if the unit seems to operate improperly. Carefully and neatly tuck the wires  
into the AC wiring compartment. Replace the cover plate.  
Residual Current Circuit Breaker  
In order to conform to the numerous electrical codes, certain branch circuits must  
be equipped with a residual current circuit breaker (RCCB). Please consult the  
code or a qualified electrician for details. Any such branch circuit must be  
protected by a circuit breaker consistent with the (RCCB) rating.  
Remote Control Wiring  
The remote control is supplied with a 7.62 m or 15.24 m RJ11 remote cable for  
connection to the unit. Simply plug one end of the cable into the remote connector  
on the bottom of the unit and the other end into the connector on the back of the  
remote control panel.  
Routing the remote cable away from AC and DC wires will minimize the potential  
for interference which may affect the LED bar displays.  
The remote control cable can be extended up to 15.24 m if required. Use standard  
4-conductor remote RJ11 cable. Use a single length of cable with no connectors or  
in-line splices. If some remote RJ11 cable is left over, coil it up and store it in an  
area away from AC equipment to prevent electrical interference.  
Once the above steps have been completed the unit can be bolted down.  
975-0251-01-01  
2–7  
   
Installation  
DC Wiring  
Two battery cables are provided with the unit. Both are black. The positive (+)  
cable has a piece of red heat shrink insulation on the end. Keep in mind that high  
current will pass through the DC wiring. All wires must be properly sized and all  
connections clean and tight.  
It is recommended that the battery cables not be lengthened at all. However, it is  
possible to extend the cables if necessary. Extension cables must be 35.0 mm2 ES,  
the same type of wire, and the total length for each battery cable must not exceed  
3.04 m from the inverter to the battery terminal.  
CAUTION: Reverse polarity hazard  
The Freedom 10 is not DC reverse-polarity protected. Be very careful to connect the  
negative and positive cables correctly, otherwise damage will result and the warranty will  
be void.  
Make sure the connections to the extension cables are tight and properly insulated.  
Do not attempt to open the case and replace the battery cables.  
The negative (–) cable should be connected directly to the negative post of the  
battery bank or the ground side of a current shunt. Do not use the RV frame as the  
negative conductor. Tighten securely.  
The positive (+) battery cable will commonly lead to a positive distribution point.  
This point typically connects to a battery switch rather than to the battery. The  
total length should not exceed 3 m and should be fused.  
A spark may be generated when the final battery connection is made. This is  
normal and do not be alarmed. However, do not make the final connection in the  
presence of flammable fumes.  
Positive (+)  
Battery Cable  
Negative (–)  
Battery Cable  
Note: Full cables and connectors  
not shown in this photograph.  
Figure 2-3 DC End  
2–8  
975-0251-01-01  
 
Recreational Vehicle Installation  
Battery Cable Fusing  
A fuse is required for safety reasons to protect the battery and cables. The fuse  
must be installed in the positive battery cable, within 45.7 cm of the battery.  
+
+ (red)  
Figure 2-4 Fuse installation  
Recommended fuse: Class T JLLN 200 amp  
This fuse with fuse holder is available from your authorized dealer or directly  
from Xantrex:  
Fuse and holder: PN# TFB200  
Fuse only: PN# TF200  
975-0251-01-01  
2–9  
 
Installation  
Marine Installation  
Before installing the inverter in a marine application, you must consider factors  
such as:  
Location  
The following factors should be considered when planning to install the  
Freedom 10.  
1. The chassis ground bonding lug is located on the bottom of the unit. Be  
sure to make this connection before bolting the unit down.  
2. Always mount the unit in a dry area, out of direct contact with water or  
spray.  
3. You may mount the unit horizontally (on a shelf) or vertically (on a wall or  
bulkhead). If mounted vertically, you must orient the unit so the switch and  
circuit breakers are facing up and the fan and battery cables are facing down.  
For future use  
May be used with  
optional TC 2+2  
(Battery Temp.  
Sensor)  
Remote Jack  
Chassis Ground  
Bonding Lug  
Figure 2-5 Ground, AC, and Remote Connection Locations  
2–10  
975-0251-01-01  
   
Marine Installation  
4. Allow 13 cm (minimum) of clearance around the unit and allow for a supply  
of fresh air to the cooling fan. Do not block any of the vents or louvers. The  
fan pulls air from outside the unit. It blows the air across the internal  
components, particularly the transformer and heat sinks, then out the side  
vents.  
5. The mounting location should be as close to the batteries as possible. The  
battery cables can be extended, however each cable must not be over 3.04 m  
in total length from the inverter to the battery terminals.  
Grounding  
For safety purposes, the chassis of the Freedom 10 must be connected to your  
AC ground system. The chassis ground bonding lug is located on the bottom of  
the unit. This connector can accept two wires. The first is used to connect the unit  
to AC ground, the second can be used to connect other AC equipment to ground.  
WARNING: Fire hazard  
Do not mount the unit in a gasoline powered engine compartment or in an enclosed battery  
compartment. Diesel engine compartments are acceptable locations, but take  
precautions to keep dirt and spray off the unit.  
Use 5.0 mm2 ES (Euro Standard) green insulated wire. Strip one end and use a  
screwdriver to secure it to the chassis ground bonding lug. This wire will connect  
to the ground in your AC electrical system. Make sure the connection is clean and  
tight.  
This procedure will connect the chassis of your Freedom 10 to AC ground. In  
addition, the AC input and AC output green/yellow wires are connected to chassis  
ground. It is important to connect these wires to the AC ground bus in the circuit  
breaker panel.  
Please note that the battery cables are not connected to ground or the chassis of the  
Freedom 10.  
Neutral Bonding  
For safety purposes, the Freedom 10 internally bonds the blue AC output neutral  
wire to the green/yellow AC ground wire when the unit is OFF or in the inverter  
mode. When incoming AC power is applied and the transfer switch is engaged,  
the internal neutral-to-ground bond is automatically lifted.  
This means that when the boat is in a marina, the grounding system is connected  
to the shore power ground, where neutral and earth ground are bonded together.  
This technique ensures safety and conforms to the requirements of numerous  
electrical codes.  
Refer to other applicable electrical codes regarding connections between AC  
ground and DC ground for marine applications.  
975-0251-01-01  
2–11  
   
Installation  
AC Wiring  
Use a screwdriver to remove the screws which secure the AC wiring compartment  
cover plate.  
Remove these screws  
Wire Nut Connectors  
Figure 2-6 AC Compartment Cover Plate Screws  
Inside you will see the compartment is divided into two sections, one labeled AC  
INPUT, the other labeled AC OUTPUT. Each side contains three pigtails: brown,  
blue and green/yellow. Wire nut connectors are provided.  
Wire Color  
Description  
Brown  
Hot or Line  
Blue  
Neutral  
Green/Yellow  
Ground  
Solid Green (AC output only)  
Internal output neutral to ground bonding conductor  
Important: At the AC output, the green/yellow and solid green wires are already  
connected together.  
Two AC wiring knockouts are provided on the AC compartment cover plate. After  
removing the knockouts, you can add strain reliefs for additional stability or  
conduit fittings if the wiring will be routed through conduit. Flexible conduit is  
recommended.  
You must use 2.5 mm2 ES copper wire with insulation rated for 60 degrees  
centigrade or higher for both the AC input and AC output.  
2–12  
975-0251-01-01  
 
Marine Installation  
AC Input  
Route the 3-conductor AC input wires through the cover plate knockouts and into  
the AC input compartment. You should have about 15 cm of individually  
insulated brown, blue and green/yellow wire. Strip about 1 cm of insulation off  
each conductor and connect to the Freedom 10 pigtails: brown to brown, blue to  
blue and green/yellow to green/yellow.  
To meet marine electrical codes, you may want to use butt splices instead of the  
wire nuts provided to make the wire connections.  
AC Output  
Route the 3-conductor AC output wire through the cover plate knockouts and  
connect in the same fashion.  
In addition, if internal output neutral-to-ground bond is not required, remove the  
solid green wire from the green/yellow wires and cap with a wire nut.  
CAUTION: Backfeed damage  
Do not connect incoming AC from any source to the AC output of the inverter. This is  
known as backfeeding and will damage the unit and void the warranty.  
Pull firmly on each connection to test it. These connections are the first thing to  
check if the unit seems to operate improperly. Carefully and neatly tuck the wires  
into the AC wiring compartment. Replace the cover plate.  
Residual Current Circuit Breaker  
In order to conform to the numerous electrical codes, certain branch circuits must  
be equipped with a residual current circuit breaker (RCCB). Please consult the  
code or a qualified electrician for details. Any such branch circuit must be  
protected by a circuit breaker consistent with the (RCCB) rating.  
Remote Control Wiring  
The remote control is supplied with 7.62 m or 15.24 m RJ11 remote cable for  
connection to the unit. Simply plug one end of the cable into the remote connector  
on the bottom of the unit and the other end into the connector on the back of the  
remote control panel.  
Routing the remote cable away from AC and DC wires will minimize the potential  
for interference that may affect the LED bar displays. The remote control cable  
can be extended up to 15.24 m if required. Use standard 4-conductor remote RJ11  
cable. Use a single length of cable with no connectors or in-line splices. If some  
remote RJ11 cable is left over, coil it up and store it in an area away from AC  
equipment to prevent electrical interference.  
Once the above steps have been completed the unit can be bolted down.  
975-0251-01-01  
2–13  
   
Installation  
DC Wiring  
Two battery cables are provided with the unit. Both are black. The positive (+)  
cable has a piece of red heat shrink insulation on the end. Keep in mind that high  
current will pass through the DC wiring. All wires must be properly sized and all  
connections clean and tight.  
It is recommended that the battery cables not be lengthened at all. However, it is  
possible to extend the cables if necessary. Extension cables must be 35.0 mm2 ES,  
the same type of wire, and the total length for each battery cable must not exceed  
3.04 m from the inverter to the battery terminal.  
CAUTION: Reverse polarity hazard  
The Freedom 10 is not DC reverse-polarity protected. Be very careful to connect the  
negative and positive cables correctly, otherwise damage will result and the warranty will  
be void.  
Make sure the connections to the extension cables are tight and properly insulated.  
Do not attempt to open the case and replace the battery cables.  
The negative (–) cable should be connected directly to the negative post of the  
battery bank or the ground side of a current shunt. Do not use a negative bus or  
bonding system as the negative conductor. Tighten securely.  
The positive (+) battery cable will commonly lead to a positive distribution point.  
This point typically connects to a battery switch rather than to the battery. The  
total length should not exceed 3 m and should be fused.  
A spark may be generated when the final battery connection is made. This is  
normal and do not be alarmed. However, do not make the final connection in the  
presence of flammable fumes.  
Positive (+)  
Battery Cable  
Negative (–)  
Battery Cable  
Note: Full cables and connectors  
not shown in this photograph.  
Figure 2-7 DC End  
2–14  
975-0251-01-01  
 
Marine Installation  
Battery Cable Fusing  
A fuse is required for safety reasons to protect the battery and cables. The fuse  
must be installed in the positive battery cable, within 45.7 cm of the battery.  
+
+ (red)  
Figure 2-8 Fuse installation  
Recommended fuse: Class T JLLN 200 amp  
This fuse with fuse holder is available from your authorized dealer or directly  
from Xantrex:  
Fuse and holder: PN# TFB200  
Fuse only: PN# TF200  
975-0251-01-01  
2–15  
 
Installation  
Residential Solar Installation  
Before installing the inverter in a residential solar application, you must consider  
factors such as:  
Location  
The following factors should be considered when planning to install the  
Freedom 10.  
1. The chassis ground bonding lug is located on the bottom of the unit. Be  
sure to make this connection before bolting the unit down.  
For future use  
May be used with  
optional TC 2+2  
(Battery Temp.  
Sensor)  
Remote Jack  
Chassis Ground  
Bonding Lug  
Figure 2-9 Ground, AC, and Remote Connection Locations  
2. Always mount the unit in a dry area, out of direct contact with water or spray.  
3. You may mount the unit horizontally (on a shelf) or vertically (on a wall).  
If mounted vertically, you must orient the unit so the switch and circuit  
breakers are facing up and the fan and battery cables are facing down.  
2–16  
975-0251-01-01  
   
Residential Solar Installation  
4. Allow 13 cm (minimum) of clearance around the unit and allow for a supply  
of fresh air to the cooling fan. Do not block any of the vents or louvers.  
5. The mounting location should be as close to the batteries as possible. The  
battery cables can be extended, however each cable must not be over 3.04 m  
in total length from the inverter to battery terminals.  
WARNING: Fire hazard and equipment damage  
Do not mount the unit in an area exposed to flammable fumes or in an enclosed battery  
compartment.  
Grounding  
For safety purposes, the chassis of the Freedom 10 must be connected to your  
AC ground system. The chassis grounding terminal is located on the bottom of  
the unit. This connector can accept two wires. The first is used to connect the unit  
to the earth grounding system, the second can be used to connect other equipment  
to the grounding system, through the unit.  
Use 5.0 mm2 ES (Euro Standard) green insulated or bare copper wire if no  
other equipment is grounded through the unit. If additional equipment is  
connected to the chassis grounding terminal, larger wire may be required. Consult  
local electrical codes for details.  
Strip one end of the wire and use a screwdriver to secure it to the chassis  
grounding terminal. This wire will connect to the equipment ground system either  
at the earth ground electrode or at an electrical equipment enclosure ground  
bonding terminal. In either case, you must ensure that the ground bonding wire  
does not become smaller between the Freedom 10 and earth ground point. Make  
sure each connection is clean and tight.  
This procedure will connect the chassis of your Freedom 10 to ground. In addition,  
the AC input and AC output green wires are connected to chassis ground. It is  
important to connect these wires to the AC ground bus in the circuit breaker panel.  
Please note that neither of the battery cables is connected to ground or the chassis  
of the Freedom 10.  
Neutral Bonding  
For safety purposes, the Freedom 10 internally bonds the blue AC output neutral  
wire to the green/yellow AC ground wire when the unit is OFF or in the inverter  
mode. When incoming AC power is applied and the transfer switch is engaged,  
the internal neutral to ground bond is automatically lifted.  
This technique meets safety requirements of numerous electrical codes. Refer to  
other applicable electrical codes regarding connections between AC ground and  
DC ground.  
975-0251-01-01  
2–17  
   
Installation  
AC Wiring  
Use a screwdriver to remove the screws that secure the AC wiring compartment  
cover plate.  
Remove these screws  
Wire Nut Connectors  
Figure 2-10 AC Compartment Cover Plate Screws  
Inside you will see that the compartment is divided into two sections, one labeled  
AC INPUT, the other labeled AC OUTPUT. Each side contains three pigtails:  
brown, blue, green/yellow. Wire nut connectors are provided.  
Wire Color  
Description  
Brown  
Hot or Line  
Blue  
Neutral  
Green/Yellow  
Ground  
Solid Green (AC output only)  
Internal output neutral to ground bonding conductor  
Important: At the AC output, the green/yellow and solid green wires are already  
connected together.  
Two AC wiring knockouts are provided on the AC compartment cover plate. After  
removing the knockouts, you can add strain reliefs for additional stability or  
conduit fittings if the wiring will be routed through conduit. Flexible conduit is  
recommended.  
You must use 2.5 mm2 ES copper wire with insulation rated for 60 degrees  
centigrade or higher for both the AC input and AC output.  
2–18  
975-0251-01-01  
 
Residential Solar Installation  
AC Input  
Route the 3-conductor AC input wires through the cover plate knockouts and into  
the AC input compartment. You should have about 15 cm of individually  
insulated brown, blue and green/yellow wire. Strip about 1 cm of insulation off  
each conductor and connect to the Freedom 10 pigtails: brown to brown, blue to  
blue and green/yellow to green/yellow.  
Use the wire nuts provided to make the wire connections.  
AC Output  
Route the 3-conductor AC output wire through the cover plate knockouts and  
connect in the same fashion.  
In addition, if internal output neutral-to-ground bond is not required, remove the  
solid green wire from the green/yellow wires and cap with a wire nut.  
CAUTION: Backfeed damage  
Do not connect incoming AC from any source to the AC output of the inverter. This is  
known as backfeeding and will damage the unit and void the warranty.  
Pull firmly on each connection to test it. These connections are the first thing to  
check if the unit seems to operate improperly. Carefully and neatly tuck the wires  
into the AC wiring compartment. Replace the cover plate.  
Residual Current Circuit Breaker  
In order to conform to the numerous electrical codes, certain branch circuits must  
be equipped with a residual current circuit breaker (RCCB). Please consult the  
code or a qualified electrician for details. Any such branch circuit must be  
protected by a circuit breaker consistent with the (RCCB) rating.  
Remote Control Wiring  
The remote control is supplied with a 7.62 m or 15.24 m RJ11 remote cable for  
connection to the unit. Simply plug one end of the cable into the remote connector  
on the bottom of the unit and the other end into the connector on the back of the  
remote control panel.  
Routing the remote cable away from AC and DC wires will minimize the potential  
for interference that may affect the LED bar graphs.  
The remote control cable can be extended up to 15.24 m if required. Use standard  
4-conductor remote RJ11 cable. Use a single length of cable with no connectors or  
in-line splices. If some remote RJ11 cable is left over, coil it up and store it in an  
area away from AC equipment to prevent electrical interference.  
Once the above steps have been completed, the unit can be bolted down.  
975-0251-01-01  
2–19  
   
Installation  
DC Wiring  
Two battery cables are provided with the unit. Both are black. The positive (+)  
cable has a piece of red heat shrink insulation on the end. Keep in mind that high  
current will pass through the DC wiring. All wires must be properly sized and all  
connections clean and tight.  
It is recommended that the battery cables not be lengthened at all. However, it is  
possible to extend the cables if necessary. Extension cables must be 35.0 mm2 ES,  
the same type of wire, and the total length for each battery cable must not exceed  
3.04 m from the inverter to the battery terminal.  
CAUTION: Reverse polarity hazard  
The Freedom 10 is not DC reverse polarity protected. Be very careful to connect the  
negative and positive cables correctly, otherwise damage will result and the warranty will  
be void.  
Make sure the connections to the extension cables are tight and properly insulated.  
Do not attempt to open the case and replace the battery cables.  
The negative (–) cable should be connected directly to the negative post of the  
battery bank or the ground side of a current shunt. Tighten securely.  
The positive (+) battery cable will commonly lead to a positive distribution point.  
This point typically connects to a battery switch rather than to the battery. The  
total length should not exceed 3 m and should be fused.  
A spark may be generated when the final battery connection is made. This is  
normal and do not be alarmed. However, do not make the final connection in the  
presence of flammable fumes.  
Positive (+)  
Battery Cable  
Negative (–)  
Battery Cable  
Note: Full cables and connectors  
not shown in this photograph.  
Figure 2-11 DC End  
2–20  
975-0251-01-01  
 
Residential Solar Installation  
Battery Cable Fusing  
A fuse is required for safety reasons to protect the battery and cables. The fuse  
must be installed in the positive battery cable, within 45.7 cm of the battery.  
+
+ (red)  
Figure 2-12 Fuse installation  
Recommended fuse: Class T JLLN 200 amp  
This fuse with fuse holder is available from your authorized dealer or directly  
from Xantrex:  
Fuse and holder: PN# TFB200  
Fuse only: PN# TF200  
975-0251-01-01  
2–21  
 
2–22  
Operation  
3
Chapter 3 describes the operation of the Freedom 10 Inverter/  
Charger.  
Topics in this chapter include:  
   
Operation  
Freedom 10 Power Switch  
The power switch is located on the front panel of the Freedom 10. This switch  
controls ON/OFF and RESET for the inverter. Expect a 3-second delay when the  
power switch is turned ON before the unit is activated.  
If installed with the remote control panel, the power switch on the unit itself  
should be left in the OFF position.  
If the unit is connected to external AC power, the power switch may be turned off,  
but the battery charger will continue to function. The internal transfer switch will  
continue to be engaged with the switch off and AC power will be available at the  
output of the unit. If AC power is removed, the unit will not come on as an  
inverter.  
Figure 3-1 Freedom 10 Power Switch  
Important: The power switch controls the inverter function. Placing the switch in the  
OFF position disables the inverter and connects mains to the output.  
Remote Control Panel  
12 V Models  
The remote control panel provides LED bar graphs that show system status,  
battery voltage, and current in both inverter and charge modes. For more  
information about this remote, refer to its owner’s manual.  
Figure 3-2 Remote Control Panel For 12 V Models  
3–2  
975-0251-01-01  
     
Remote Control Panel  
24 V Models  
This section contains information about the remote control panel for 24 V models.  
The remote control panel provides LED bar graphs that show system status,  
battery voltage, and current in both inverter and charge modes. These bar graphs  
can also display DIP switch positions and shutdown conditions.  
Figure 3-3 Remote Control Panel for 24 V Models  
Power Switch  
The switch on the remote is used to control the inverter and can be used to control  
the battery charger function also. When a remote control is used, the power switch  
on the unit itself should be left in the OFF position.  
System Status LEDs  
These four LEDs monitor the system as described in Table 3-1.  
Table 3-1 System Status LED summary  
Status LED  
Appearance Purpose  
BATTERY  
On Steady  
This is a warning condition.  
Inverter mode: Battery > 30.5 or < 21 volts  
Charger mode: Battery > 30.5 or < 20 volts.  
BATTERY  
Blinking  
Indicates either a shutdown or equalizing.  
Battery > 31 volts will automatically reset at 30.5.  
Inverter mode: Battery < 20 volts, will  
automatically reset at charger float voltage or upon  
AC input.  
Charger mode: Battery < 16 volts for 1 minute,  
remove all DC loads and manually reset by cycling  
the power switch.  
OVERLOAD  
On Steady  
Indicates an over-temperature condition, the unit is  
shut down.  
975-0251-01-01  
3–3  
       
Operation  
Table 3-1 System Status LED summary  
Status LED  
Appearance Purpose  
OVERLOAD  
Blinking  
Inverter mode: shutdown. Diagnose problem with  
DC amps bar graph.  
Charger mode: thermal shutdown. After cooling,  
reset by cycling power switch.  
AC INPUT  
INV/CHRG  
On Steady  
On Steady  
Illuminates when incoming AC power has been  
applied and the transfer relays have been engaged.  
There is a 7- to 12-second delay from the time the  
AC is applied and this LED illuminates.  
Power On light. It will be illuminated whenever  
the power switch is on (inverter on) or whenever  
there is incoming AC power and the charger comes  
on.  
DC Volts Bar Graph  
DC Amps Bar Graph  
These LEDs indicate battery voltage as measured inside the Freedom 10. Each  
LED segment indicates 1 volt. The DC volts bar graph will stop indicating battery  
voltage and display the DIP switch settings if the unit shuts down due to an  
overload. It will return to indicating battery voltage only after the unit has been  
reset.  
These LEDs approximate DC input current in inverter mode and DC output  
current in battery charger mode. Two ranges are used.  
1. Below 25 amps each segment represents a 5 amp increment.  
2. Above 25 amps each segment represents a 10 amp increment.  
Above 65 amps a flashing LED segment indicates the value displayed plus  
50 amps (for example, a flashing 25 LED is equal to 25 + 50 or 75 amps DC). If  
the inverter is in its idle mode, the bottom LED segment will be out. As soon as  
the unit is pulled out of idle, the bottom segment will illuminate. This indicator is  
useful when adjusting the idle sensitivity using the DIP switches.  
The DC amps bar graph will stop indicating DC amps and will indicate the type of  
problem if a shutdown occurs. Each LED segment indicates a different problem as  
DIP Switches  
On the back of the Freedom remote control panel is a series of eight DIP switches  
that are used to make several adjustments. If you look closely at the switch block  
you will see that each switch is labeled, 1 through 8, and the ON position is  
indicated (see Figure 3-4). The switch settings can be changed at any time, even  
while the unit is operating. Following is a discussion of each adjustment. Refer to  
3–4  
975-0251-01-01  
     
Remote Control Panel  
Figure 3-4 Freedom Remote Control Dip Switches  
Equalize or Three-Stage Charging (Switch #1) Cycling this switch ON for 1  
second, then OFF, will initiate an equalizing charge cycle. The battery charger  
must be engaged before cycling the switch. The switch must always be left in the  
OFF position. If it is left ON, an equalizing charge cycle will initiate every time the  
charger is engaged - this could cause battery damage. The equalizing cycle is  
timed to last 8 hours from the time the switch is cycled, at which point the charger  
resumes normal charging in the float stage. The BATTERY LED blinks when  
equalizing. Refer to page 3–14 for a discussion of the theory and procedure for  
battery equalizing.  
Battery Type (Switch #2 and 3) Gel cell and wet cell batteries have slightly  
different charge voltage requirements and optimum battery charging is  
temperature dependent. For these reasons, the DIP switches allow four different  
battery charger voltage set points, depending on battery type and ambient  
temperature:  
Switch Position  
Battery Type and  
Temperature  
Switch 2  
Switch 3  
Off  
Cool Wet Cell (< 27 °C) Off  
Warm Wet Cell (> 27 °C) On  
Cool Gel Cell (< 27 °C) Off  
Warm Gel Cell (> 27 °C) On  
Off  
On  
On  
See page 3–16 for the specific voltages for each setting.  
Auto Charge (Switch #4) With the switch in the OFF position, the remote panel  
ON/OFF switch only controls the inverter operation. With the switch turned ON, this  
switch allows the power ON/OFF switch on the front of the remote to control the  
battery charger as well as the inverter.  
975-0251-01-01  
3–5  
 
Operation  
Idle Sensitivity (Switch #5 and 6) Most installations will be connected to the  
electrical system. With no appliances turned on, this represents a small load. This  
is due to the capacitance of the wires. Using a trial and error process, the idle  
circuit can be adjusted until the unit will detect small loads but still drop into idle  
mode when all loads are shut off.  
Some small loads may not pull the unit out of idle mode. In this case, you may  
disable the idle circuit or use an additional load, such as a small incandescent  
light, to first activate the idle circuitry. You can confirm if the unit is in idle mode  
by checking the DC Amps bar graph, the lowest LED goes out only when the unit  
is in idle mode.  
A volt meter can also be used to confirm the idle condition. Idle mode output  
voltage will typically measure between 10 and 55 volts with an averaging AC volt  
meter. Refer to the Troubleshooting section for a discussion of measuring inverter  
output voltage with a meter.  
Power Sharing (Switch #7 and 8) These switches should be set to match the  
value of the circuit breaker which protects the incoming AC power. For instance,  
in most RV parks or marinas a 15-amp circuit is available. Use the 2-amp setting  
for small generators, or for charging deeply discharged batteries. See page 3–15.  
DIP Switch Status  
You can check the position of the DIP switches by quickly cycling the power  
switch off and on twice. The DC Volts bar graph will cease to display battery  
voltage and will indicate the setting of each DIP switch. In this mode the bottom  
LED will illuminate if switch 1 is on, etc. DIP switch settings are indicated for 10  
seconds after which time the display returns to indicating battery voltage.  
DIP Switch Programming  
Table 3-2 DIP switch function and position summary  
Feature  
Switch Number  
Set Point  
Equalize or 3-Stage  
Charging  
1
Toggle On/Off  
Equalize (Do not leave on.)  
3-Stage Charging*  
Off  
2
**Battery Type  
Auto Charge  
3
On  
Off  
On  
Off  
4
On  
On  
Off  
Off  
Warm Gel Cell (>27 °C)  
Cool Gel Cell (<27 °C)  
Warm Wet Cell (>27 °C)  
Cool Wet Cell (<27 °C)*  
On  
Disable: Charger responds to  
On/Off switch.  
3–6  
975-0251-01-01  
   
Link 2000 Remote Control Panel  
Table 3-2 DIP switch function and position summary  
Feature  
Switch Number  
Set Point  
Off  
Enable: Charger on when  
AC connected.*  
Idle Sensitivity  
5
6
On  
Off  
On  
Off  
7
On  
On  
Off  
Off  
8
Idle disabled  
15 watts  
6 watts  
4 watts*  
Power Sharing  
On  
Off  
On  
Off  
On  
On  
Off  
Off  
2 amps  
5 amps  
10 amps  
15 amps*  
* Default setting.  
Remote Control Wiring  
The remote control panel is supplied with 7.62 m or 15.24 m of RJ11 remote  
cable. The cable supplied may have 6 conductors; however, only 4 conductors are  
required. You may buy standard 4-conductor telephone cable and run up to  
15.24 m if desired. Use only a single length of telephone wire—do not splice.  
Remote Power Consumption  
Table 3-3 System current consumption versus idle mode  
Idle Mode  
With Remote  
181 mA  
Without Remote  
120 mA  
n/a  
Normal Idle  
Idle Circuit Disabled  
Unit Shut Off  
496 mA  
16 mA  
7 mA  
Link 2000 Remote Control Panel  
The Link 2000 and 2000R offer increased monitoring and control options. In  
addition to providing inverter/charger control, the Link 2000 enables precision  
monitoring of DC voltage, current, and amp hours for two battery banks.  
The Link 2000R adds the ability to control an engine driven alternator. This  
precision regulator transforms an alternator into a 3 stage battery charging system  
like the charger in the Freedom 10.  
If a Link 2000 or 2000R remote is being used to control the inverter/charger, refer  
to the Link manual for setup and control information.  
975-0251-01-01  
3–7  
     
Operation  
Batteries  
This section discusses how battery types, connection, and battery bank size affect  
the operation of your inverter/charger.  
Battery Types  
Use only deep-cycle batteries with your Freedom 10. These fall into two broad  
categories: wet cell and gel cell.  
Wet Cell Batteries  
True deep-cycle wet cell batteries are characterized by relatively thick plates that  
are alloyed with antimony.  
Common Marine/RV deep-cycle batteries are the least expensive and lowest  
quality battery that is acceptable. Golf cart batteries are much better in terms of  
performance and life. These are 6-volt batteries that must be used in series pairs.  
High quality marine deep-cycle batteries offer good performance and are  
available in a wide variety of sizes. Floor sweeper, fork lift or large 2-volt cells  
can also offer excellent performance if their large size can be accommodated.  
It should be noted that high antimony deep-cycle batteries will give off gasses as a  
natural result of charging and will experience some water loss. It is very  
important that the electrolyte level be checked frequently and topped off with  
distilled water when necessary. Never allow the tops of the plates to be exposed to  
air, as contamination of the cell will result. Keeping the tops of the batteries clean  
will reduce self-discharging. Always provide ventilation for the battery storage  
compartment.  
Do not use car batteries or engine starting batteries of any kind with your  
inverter/charger. In general, most wet cell batteries that are described as hybrid  
batteries, suitable for either engine starting or deep-cycle applications are a  
compromise and will give limited life if deeply discharged. Beware of 8-D  
batteries which are commonly used for starting diesel engines. These batteries  
are often not deep-cycle.  
Beware of batteries described as “maintenance-free.” These batteries have  
calcium alloyed with the lead and hold the liquid electrolyte in a sponge-like  
material. They are sealed and water cannot be added. Do not confuse them with  
true gel cell batteries; they will not hold up to deep discharging. These batteries  
typically have thin plates and are best suited as engine starting batteries.  
Gel-Cell Batteries  
These are lead-acid batteries similar in many ways to the common wet cell  
battery, but differences in the chemistry and construction provide some unique  
features.  
3–8  
975-0251-01-01  
       
Batteries  
There is no need to add water and the tops of the batteries stay clean. Also the  
No Maintenance  
batteries can be used in any position and are Coast Guard approved for use  
without a battery box.  
Low Self-Discharge  
Rate  
Unlike wet cell batteries, the gel cell will hold its charge for months if left sitting  
with no load and no float charge. They can be stored in the off-season without a  
constant float charge and without fear of freezing.  
Low Internal  
Resistance  
The result of this is a higher battery voltage under load, which will result in better  
inverter performance on demanding high power loads. In addition this allows the  
gel cell to accept a high rate of charge, a plus for rapid recharging.  
No Sulfation  
The combination of acids in the gel cell prevents sulfation and eliminates the need  
for battery equalization.  
The result of these features is a battery that solves many common problems. Cycle  
life is high, even under constant deep discharging. For all these reasons the gel  
cell is highly recommended.  
Battery Interconnection  
In most cases, you will be using a bank of two or more batteries with your  
inverter/charger. You may connect batteries together in two configurations: series  
and parallel.  
Series  
Connecting two batteries in series will double the voltage of the battery bank.  
For instance, two 6-volt batteries connected in series will produce 12 volts; four in  
series will produce 24-volts. The amp hour capacity of the battery bank will be the  
same as each individual battery. As an example, two 6-volt, 220 amp-hour  
batteries in series will produce one 12-volt, 220 amp-hour battery bank.  
+
+
Figure 3-5 Series Battery Connection  
975-0251-01-01  
3–9  
   
Operation  
Parallel  
Connecting two batteries in parallel will double the amp hour rating of the  
battery bank, while the voltage will be the same as each individual battery.  
For example, two 12 volt 105 amp-hour batteries in parallel will produce one  
12-volt, 210 amp-hour battery bank.  
+
+
Figure 3-6 Parallel Battery Connection  
Only similar batteries should be connected together in one bank. Do not  
connect old and new batteries or wet and gel cell batteries together. In the above  
drawing, note that the load is connected to the positive terminal of the first battery  
and the negative terminal of the last battery. This practice helps to balance the  
battery bank.  
Important: Always use proper terminals for your interconnecting battery cables and  
cable which is 2 AWG or larger.  
Battery Bank Ratings and Sizing  
Deep-cycle batteries are usually rated in amp hours. The amp-hour rating is  
based on a 20-hour discharge cycle; therefore, a 100 amp-hour battery can deliver  
5 amps for 20 hours. If the discharge rate is greater than 5 amps, the available amp  
hours are decreased. If the load is increased to 100 amps, only about 45 amp hours  
will be available.  
Another common rating is reserve capacity expressed in minutes. This is derived  
by placing a 25 amp load on the battery and measuring the time until the battery  
voltage reaches 10.5 volts.  
Deep-cycle batteries can be discharged about 80% before permanent damage  
occurs, though shallower cycling will result in much longer battery life. Fifty per  
cent cycling is generally considered to be a good compromise between long  
battery life and a reasonably sized battery bank.  
To achieve 50% cycling, you should calculate your amp-hour consumption  
between charging cycles and use a battery bank with twice that capacity.**  
3–10  
975-0251-01-01  
   
Batteries  
To calculate amp-hour consumption, first look at the rating plate on your AC  
appliances. Each appliance will be rated in either AC amps or AC watts or AC VA  
(volt-amps) apparent power. Use one of the following formulas to calculate the  
DC amp-hour draw for a 12-volt system:  
(AC amps × 10) × 1.1 × hours of operation = DC amp hours *  
(AC watts ÷ 12) × 1.1 × hours of operation = DC amp hours *  
(AC VA ÷ 12) × 1.1 × hours of operation = DC amp hours *  
In all formulas, 1.1 is the factor for inverter efficiency.  
* Divide amp hours by 2 for 24-volt systems.  
** Batteries are frequently charged to 85% of full charge when charging with  
alternators without 3-stage regulators.  
Calculate the above for every AC appliance you intend to use on your inverter.  
This will give you the total number of amp hours used between recharges. Size  
your battery bank using this number as a guideline. A good rule to follow is to size  
the battery bank about two times larger than your total amp hour load requirement.  
Plan on recharging when 50% discharged.  
Table 3-4 Typical Power Consumption  
Appliance Run Times/Amp Hours*  
Typical  
Wattage 5 min 15 min 30 min 1 hr.  
Appliance  
13" color TV  
19" color TV  
VCR  
2 hr.  
8
3 hr.  
12  
8 hr.  
32  
24 hr.  
96  
50  
0.33  
0.66  
0.33  
0.66  
2
1
2
4
8
4
8
100  
50  
2
4
16  
8
24  
64  
192  
96  
1
2
12  
32  
Lamp  
100  
300  
50  
2
4
16  
24  
64  
192  
Blender  
6
12  
2
Curling iron  
3/8" power drill  
Icemaker*  
Coffee maker  
0.33  
3.3  
1
500  
200  
1000  
10  
20  
2.6  
40  
2
5.2  
80  
4
10.4  
160  
8
15.6  
41.6  
83.2  
6.6  
20  
3 cu. foot refrigerator* 150  
20 cu. foot refrigerator* 750  
12  
32  
96  
21  
30  
60  
44  
42  
60  
120  
88  
84  
126  
180  
360  
264  
336  
672  
Compact microwave  
Full-size microwave  
Vacuum  
750  
5
15  
30  
22  
120  
240  
176  
1500  
1100  
10  
7.3  
The number in each box represents the amp hours used (at 12 volts DC) based on  
various continuous run times.  
* Note: refrigeration is typically calculated using a 1/3 duty cycle.  
975-0251-01-01  
3–11  
Operation  
Battery Charging  
Completely recharging wet cell deep-cycle batteries requires that the battery  
voltage be raised beyond what is known as the gassing point. This is the voltage at  
which the battery begins to bubble and gas is given off. If charging stops short of  
this point, sulfate is left on the plates and deterioration of the battery begins. The  
gassing point will vary with battery temperature. At 25 degrees C, the gassing  
point of a 12-volt battery is about 14.0 volts. Battery charging without excessive  
gassing of the batteries is accomplished with three-stage chargers. This technique  
is used in the Freedom 10.  
Gel cell batteries must not be charged to their gassing point. In fact high voltage  
charging that gasses these batteries is harmful to them. These batteries do not give  
off water vapor. The float voltage can be higher than that of wet cell batteries.  
Conventional Battery Chargers  
Most conventional battery chargers are single stage constant voltage chargers. As  
such they must stop short of the gassing point or they will overcharge the battery  
bank. Therefore, most 12-volt battery chargers bring the battery voltage up to  
about 13.8 volts.  
There are two problems with this. First, since the battery voltage does not reach  
the gassing point, sulfate is left on the plates. Second, 13.8 volts is close enough to  
the gassing point that some gas will escape, and the battery will need to be  
frequently topped up with distilled water.  
Conventional battery chargers also suffer from another inherent characteristic of  
their design, which is a tapering output. While they will deliver their rated current  
into a deeply discharged battery, as the battery becomes charged and the voltage  
rises, the output current of the charger tapers down. This taper continues as the  
battery is charged, taking a very long time to reach an acceptable recharge.  
The Freedom Battery Charger  
The Freedom battery chargers are designed to overcome the limitations of  
conventional chargers by utilizing three distinct stages, each designed for optimal  
recharging of both wet cell and gel cell deep-cycle batteries.  
Important: The Freedom 10 Battery Charger is on whenever there is AC power  
connected to the charger input, regardless of the condition of the ON/OFF switch.  
Each time the battery charger is engaged, the three stages proceed automatically,  
resulting in an efficient, complete recharge and safe battery maintenance. In  
addition, use of the remote control provides the ability to periodically apply an  
8-hour timed equalizing charge.  
3–12  
975-0251-01-01  
     
Battery Charging  
Amps  
50  
"Bulk Charge"  
Freedom  
Charger  
Constant Current  
40  
30  
20  
10  
"Acceptance Charge"  
Constant Voltage  
Finish "Float"  
Charge  
Equalizing  
Traditional  
Charger  
100 Amp  
Taper Charger  
11  
12  
13  
14  
15  
16  
Volts  
Quicker, more complete recharging, safe long-term charging  
and battery rejuvenation through an equalizing charge.  
Figure 3-7 Benefits of the Freedom Charger vs. the Traditional Taper Charger  
The battery charger stages are:  
Stage 1—Bulk Charge. During the bulk charge stage most of the charge  
current is delivered to the battery bank. This phase is engaged as soon as the  
battery charger is activated. Full rated charger current is delivered to the  
battery bank until the bulk charge voltage limit is reached. This results in a  
relatively rapid recharge.  
It is generally agreed that a wet cell battery bank should not be charged up to  
the gassing point at a rate that exceeds 25% of its capacity. In other words, a  
12-volt battery bank of 520 amp hours should not be charged at over  
130 amps.  
Gel cell batteries can accept a higher rate of charge. Consult the manufacturer  
for details.  
Stage 2—Acceptance Charge. The acceptance stage immediately follows the  
bulk charge stage. During this stage, the battery voltage is held constant at the  
bulk charge voltage limit and the current gradually ramps down. During this  
stage the battery is accepting its final amount of charge current and the last of  
the sulfate on the plates is removed.  
The acceptance stage lasts until the charge current reaches about 6 to 7 amps  
(3 to 4 amps for a 24-volt system). A timer will terminate the acceptance stage  
if this current level is not reached. This timer is set automatically when the  
DIP switches for battery type are set. Maximum acceptance time is 1 hour for  
wet cells and 3 hours for gel cells. Gel cell acceptance time can be increased  
because the battery is not gassing. Expect wet cell batteries to gas somewhat  
during acceptance. This is a necessary part of the charging process.  
975-0251-01-01  
3–13  
Operation  
Stage 3—Float Charge. When the acceptance stage is terminated, either  
because the charge current ramped down to 6 to 7 amps (3 to 4 amps for a  
24-volt system) or the timer engaged, battery charger current will shut off  
and the unit monitors the battery voltage while it drifts down from the bulk  
charge voltage limit. When it reaches the float voltage set point, the float  
charge stage is engaged.  
The float charge stage holds the battery voltage at a lower level, where it is  
safe for long-term battery maintenance. During the float charge stage the full  
output current of the battery charger is available to operate any DC appliances  
that may be on the system, while constantly maintaining the float charge  
voltage.  
The battery charger remains in the float charge stage indefinitely until the  
charger is disconnected from incoming AC power.  
Stage 4—Equalizing Charge. This is the only battery charger stage which is  
not engaged automatically. It must be manually initiated each time using a  
DIP switch on the rear of the remote control. Applying an equalizing charge is  
not possible without the use of a remote.  
Equalizing Batteries  
Periodic equalizing is recommended by most wet cell deep-cycle battery  
manufacturers. There are no firm rules for how often an equalizing charge should  
be applied, but once a month is a good rule of thumb for batteries that are  
regularly cycled, less often for systems in only occasional use.  
The equalizing charge is a timed 8-hour cycle. If desired, it can be ended by  
interrupting the AC power to the charger at any time during the cycle. Equalizing  
should be engaged after the batteries have been fully charged by a normal battery  
charging cycle. The battery voltage will increase to 16.3 (32.6 for a 24-volt  
battery) using the cool temperature wet cell setting. This will cause the battery  
bank to gas profusely and will accomplish the following:  
Removal of residual sulfate—Each time a battery is cycled (discharged and  
recharged), a small amount of sulfate is left on the plates. Over time, this  
gradual buildup of sulfate will compromise the performance of the battery. By  
applying an equalizing charge, this sulfate is returned back to the electrolyte,  
raising the specific gravity and fully exposing the active material of the plates.  
Bring all cells to the same potential—All lead-acid batteries are made up of  
individual 2-volt cells. As the battery bank is cycled, slight differences in the  
cells results in different cell voltages, affecting the overall charge  
effectiveness. Equalizing will serve to bring all cells up to the same voltage  
and the electrolyte in each cell to the same specific gravity.  
Mixing up of the electrolyte—There is a tendency in the cell of a battery for  
the electrolyte to separate into layers of acid and water. The vigorous boiling  
action of the battery during equalizing serves to physically mix the  
electrolyte.  
3–14  
975-0251-01-01  
   
Battery Charging  
Equalizing is not required on gel cell batteries. You will note that if the DIP  
switches are set in one of the two gel cell positions, the equalizing charge voltage  
is the same as the bulk charge voltage, therefore equalizing is equivalent to an 8-  
hour acceptance stage and is not harmful.  
Equalize charging is current limited to 16 A DC. Remove all DC loads from the  
output of the inverter/charger.  
CAUTION: Damage to batteries  
Do not equalize gel cell batteries with the remote programmed for wet cells.  
Always monitor the equalize charge. Provide proper ventilation for battery fumes.  
Do not allow any sparks during equalizing. If one or more cells begin to overflow,  
terminate the equalize cycle.  
Check and top up the battery electrolyte both before and after the equalizing  
charge. Do not expose the battery plates to air. Leave the battery caps on while  
equalizing.  
Remove all loads from the DC system before equalizing. Some DC loads may not  
tolerate the high charge voltage.  
Do not leave the equalize DIP switch in the ON position. It must be cycled OFF and  
left in the OFF position. If left ON, the unit will engage the equalizing cycle every time  
the battery charger is engaged.  
Charging Over-Discharged Batteries  
Charging into a battery bank with a terminal voltage of less than 8 volts (16 in a  
24-volt system) presents a special problem for the Freedom 10.  
If this situation arises, the unit will attempt to charge for 1 minute. If the inverter  
senses excessive ripple voltage, it will shut down to protect itself.  
To successfully charger an over-discharged battery, you must remove as  
much DC load as possible. Then, set DIP switches 7 and 8 to the ON position to  
limit the amount of charge current and the resulting ripple voltage. After the  
battery voltage has reached 10 volts (20 volts in a 24-volt system), these switches  
can be set to their previous positions.  
Please note that if a continuous DC load in excess of 100 amps (50 amps in a  
24-volt system) is placed on the battery bank, eventually the battery voltage  
will drop below 8 volts (16 volts in a 24-volt system) and the battery charger  
will shut off. This load must be significantly reduced and the power to the  
charger cycled to resume charging.  
Blinking of the BATTERY LED on the remote control while charging is a  
warning that an over-discharge is imminent and that the DC load should be  
reduced.  
975-0251-01-01  
3–15  
   
Operation  
Battery Charger Voltage Settings  
Table 3-5 Battery Charger Voltage Settings  
Battery Type and  
Temperature  
Acceptance Voltage/  
Max Time  
Float Voltage  
Equalize Voltage  
12-volt wet cell  
warm temperature  
14.0 / 1 hour  
14.4 / 1 hour  
13.8 / 3 hours  
14.1 / 3 hours  
28.0 / 1 hour  
28.8 / 1 hour  
27.6 / 3 hours  
28.2 / 3 hours  
13.1  
15.8  
12-volt wet cell  
cool temperature  
13.5  
13.3  
13.6  
26.2  
27.0  
26.6  
27.2  
16.3  
12-volt gel cell  
warm temperature  
14.1**  
14.1**  
31.6  
12-volt gel cell  
cool temperature  
24-volt wet cell  
warm temperature  
24-volt wet cell  
cool temperature  
32.6  
24-volt gel cell  
warm temperature  
27.6  
24-volt gel cell  
28.2  
cool temperature  
** When set for gel cells, the equalize mode is disabled.  
3–16  
975-0251-01-01  
 
Troubleshooting  
4
Chapter 4 contains information and procedures to troubleshoot the  
Freedom 10. This chapter also describes how to use the DC Amps  
LED bar graph on the remote control to troubleshoot the unit.  
     
Troubleshooting  
Using the Remote Control DC Amps LED Bar Graph  
The remote control LEDs are numbered by counting up from the bottom.  
LED Number Indication  
1
2
3
4
Illuminates if the unit shuts down for any reason.  
Over-temperature. Allow to cool.  
The unit detected a failure. Call Xantrex technical support.  
Inverter overload caused by too large a load or short circuit. Reset by  
cycling power switch or plugging in incoming AC power.  
5
6
Battery overload caused by excessively discharged batteries. See  
Incoming AC backfeed. Potentially damaging to the unit. Disconnect  
incoming AC power and correct the condition.  
7
8
Triac thermal run away. Turn off and allow to cool down.  
High battery voltage shutdown during charge mode. Check all charging  
sources for proper voltage. Reset by cycling the power switch.  
9 and 10  
Not used for troubleshooting.  
Troubleshooting Guide  
Problem  
Things to Check  
No inverter  
output  
Battery voltage under load.  
Battery connections and DC fuse.  
Circuit breaker on front panel.  
Thermal condition, high power loads or inadequate ventilation may  
cause overheating.  
Overloads or short circuit, check for excessive loads or bad wiring  
connections.  
Low inverter Confirm that your volt meter is a true RMS meter. Standard volt meters  
output  
voltage  
will not accurately read the waveform of the inverter and may read  
anywhere from 180 VAC to 240 VAC. If a true RMS meter is not  
available, check the brightness of an incandescent light bulb. If it  
appears normal, the output voltage is properly regulated.  
Little or no  
output from  
battery  
Wiring connections—check both the AC and DC connections.  
AC input voltage—low voltage input will result in low DC output  
current. Expect reduced charger output from generators under 6500  
watts.  
charger  
AC reverse polarity—check for voltage between the incoming blue  
and green wires. If 240 volts AC is measured, this is reverse polarity.  
Microwave  
oven cooking  
slowly  
Microwave ovens will normally cook slowly on inverters due to a  
slightly low peak AC voltage.  
Cooking speed will be determined by battery voltage. Low voltage  
results in increased cooking time. Support the battery bank with an  
alternator or other charging source for quicker cooking.  
4–2  
975-0251-01-01  
     
Specifications  
A
Appendix A contains the electrical and physical specifications for the  
Freedom 10 Inverter/Charger.  
All specifications are subject to change without notice.  
   
Specifications  
Specifications  
Nominal Battery Voltage  
12 VDC  
24 VDC  
Battery Voltage Range  
10.0 to 15.5 VDC  
10 VDC  
20 to 31 VDC  
20 VDC  
Low Battery Cutout  
AC Input Voltage Range  
Frequency Regulation  
Inverter Output Power  
Inverter RMS Voltage Regulation  
Wave Shape  
180 to 260 VAC  
0.005% @ 50 Hz  
1000 VA  
230 VAC ± 5% True RMS  
Modified Sine Wave  
Surge Power (15 seconds)  
Power Factors Allowed  
Full Load Efficiency  
Peak Efficiency  
3000 VA  
All  
85%  
92%  
No Load Power Current Drain  
Remote Current Drain  
Protection  
0.12 A  
0.03 A  
0.06 A  
0.015 A  
Circuit breaker, electronic, thermal, high battery, low  
battery  
Charging Rate  
50 A  
25 A  
Bulk Charge Voltage  
Float Charge Voltage  
Equalizing Charge Voltage  
Regulatory Approvals  
14.3 VDC*  
13.4 VDC*  
16.3 VDC*  
28.6 VDC*  
26.8 VDC*  
32.6 VDC*  
CE Marked for the Low Voltage Directive and EMC  
Directive  
Weight  
14.1 kg  
Dimensions  
30.5 × 24.8 × 17.8 cm  
* voltages will vary depending on temperature and the selected battery type.  
A2  
975-0251-01-01  
 
Glossary  
B
Appendix B contains a glossary of terms used in this manual. This  
appendix also defines some common electrical terms and concepts.  
   
Glossary  
Glossary of Terms  
Alternating Current An electric current that reverses direction at regular intervals. Sources  
(AC)  
of alternating current are shore power, utility power, inverter output  
power, generator power or household current.  
Ampere (Amp, A)  
The unit of measure of electron flow rate of current through a circuit.  
Ampere-hour  
(Amp-hr. AH)  
A unit of measure for a battery’s electrical storage capacity, obtained  
by multiplying the current in amperes by the time in hours of  
discharge (Example: a battery which delivers 5 amperes for 20 hours  
delivers 5 amperes times 20 hours, or 100 Amp-Hr. of capacity.)  
AWG  
American Wire Gauge, a standard used to measure the size of wire.  
AH Capacity  
The ability of a fully charged battery to deliver a specified quantity of  
electricity (Amp-Hr, AH) at a given rate (amp, A) over a definite  
period of time (Hr).  
Circuit  
An electric circuit is the path of an electric current. A closed circuit  
has a complete path. An open circuit has a broken or disconnected  
path.  
Circuit (Series)  
A circuit which has only one path for the current to flow. Batteries  
arranged in series are connected with the negative of the first to the  
positive of the second, negative of the second to the positive of the  
third, etc. If two 12 volt batteries of 50 ampere-hours capacity are  
connected in series, the circuit voltage is equal to the sum of the two  
battery voltages, or 24 volts, and the ampere-hour capacity of the  
combination is 50 ampere-hours.  
Circuit (Parallel)  
A circuit which provides more than one path for current flow. A  
parallel arrangement of batteries (of like voltage and capacity) would  
have all positive terminals connected to a conductor and all negative  
terminals connected to another conductor. If two 12 volt batteries of  
50 ampere-hour capacity each are connected in parallel, the circuit  
voltage is 12 volts, and the ampere-hour capacity of the combinations  
is 100 ampere-hours.  
Current  
The rate of flow of electricity or the movement rate of electrons along  
a conductor. It is comparable to the flow of a stream of water. The unit  
of measure for current is the ampere.  
Cycle  
In a battery, one discharge plus one recharge equals one cycle.  
Dip Switch  
A series of small switches used for special programming of the  
Freedom inverter/charger. These switches are located on the rear of  
the Freedom remote panel.  
Direct Current (DC) Current that flows continuously in one direction such as that from  
batteries, photovoltaics, alternators, chargers and DC generators.  
Discharging  
(Discharge)  
When a battery is delivering current it is said to be discharging.  
B2  
975-0251-01-01  
 
Glossary of Terms  
Equalize Charge  
Gel Cell Battery  
Ground  
A controlled overcharge of the batteries which brings all cells up to  
the same voltage potential, extends the battery life, restores capacity  
and mixes the electrolyte.  
A type of battery that uses a gelled electrolyte solution. These  
batteries are sealed and are virtually maintenance free. Not all sealed  
batteries are the gel cell type.  
The reference potential of a circuit. In automotive use, the result of  
attaching one battery cable to the body or frame which is used as a  
path for completing a circuit in lieu of a direct wire from a component.  
This method is not suitable for connecting the negative cable of the  
inverter to ground. Instead, route the cable directly to the negative  
terminal of the battery.  
LED  
Light Emitting Diode, used as an indicator light.  
Negative  
Designating or pertaining to electrical potential. The negative terminal  
is the point from which electrons flow during discharge.  
Ohm  
A unit for measuring electrical resistance. Ohm's Law Express the  
relationship between volt (V), amperes (A) in an electrical circuit with  
resistance (R). It can be expressed as follows: V = AR If any two of  
the three values are known, the third value can be calculated by using  
the above formula.  
Ohm’s Law  
Express the relationship between volt (V), amperes (A) in an electrical  
circuit with resistance (R). It can be expressed as follows: V = AR. If  
any two of the three values are known, the third value can be  
calculated by using the above formula.  
Positive  
Designating or pertaining to electrical potential; opposite of negative.  
The positive battery terminal is the point where electrons return to the  
battery during discharge.  
Power sharing  
RCCB  
The ability of the charger to reduce its output when the AC power  
being consumed by the charger and external AC loads connected to  
the output of the inverter are in excess of the input breaker rating.  
Residual Current Circuit Breaker. A protective device that  
deenergizes a circuit rapidly when current to ground exceeds a  
predetermined value.  
Volt  
The unit of measure for electric potential.  
See Watt.  
Volt Amps (VA)  
Watt  
The unit for measuring electrical power, i.e. the rate of doing work, in  
moving electrons by, or against, an electric potential.  
Watt-Hour (WATT- The unit for measuring electrical energy which equals Watts × Hours.  
HR, WH)  
Wet Cell Battery  
A type of battery that uses liquid as an electrolyte. This type of battery  
requires periodic maintenance such as cleaning the connections and  
checking the electrolyte level.  
975-0251-01-01  
B3  
B4  
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 Freedom 10 Inverter/Charger. This warranty period lasts for  
24 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: 34 93 470 5330  
Fax:  
34 93 473 6093  
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  
975-0251-01-01  
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 inter-  
nally 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 specifi-  
cations 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 (hereafter  
"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, 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 FREEDOM 10 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 REPRESENTATIONS OR WARRANTIES REGARDING THE USE OF THE XANTREX FREEDOM  
10 INVERTER/CHARGER IN CONNECTION WITH LIFE SUPPORT SYSTEMS OR OTHER MEDICAL EQUIPMENT OR DEVICES.  
Please note that the Freedom 10 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.  
WA2  
975-0251-01-01  
Warranty and Return  
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.  
Out of Warranty Service  
If the warranty period for your Freedom 10 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 unit may be serviced or replaced for a flat fee.  
To return your Freedom 10 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 Procedure” on  
page WA–3.  
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.  
975-0251-01-01  
WA3  
Warranty and Return  
Information About Your System  
As soon as you open your Freedom 10 Inverter/Charger package, record the following information and be sure to  
keep your proof of purchase.  
_________________________________  
_________________________________  
_________________________________  
p
p
p
Serial Number (on DC end)  
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.  
__________________________________  
__________________________________  
__________________________________  
__________________________________  
__________________________________  
__________________________________  
__________________________________  
p
p
p
p
p
p
p
Type of installation (e.g. RV, truck)  
Length of time inverter has been installed  
Battery/battery bank size  
Battery type (e.g. flooded, sealed gel cell, AGM)  
DC wiring size and length  
Appliances operating when problem occurred  
Description of problem  
______________________________________________________________________________________  
______________________________________________________________________________________  
WA4  
975-0251-01-01  
Xantrex Technology Inc.  
34 93 470 5330 Tel  
34 93 473 6093 Fax  
support.europe@xantrex.com  
Printed in China  
975-0251-01-01  

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