Xantrex Technology Portable Generator GT50 NA User Manual

Grid Tie Solar Inverter  
GT5.0-NA  
Owners Manual  
Xantrex Grid Tie  
Solar Inverter  
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Xantrex Grid Tie Solar Inverter  
Owners Manual  
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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  
Xantrex Grid Tie Solar Inverter is a trademark of Xantrex International. Xantrex and Xanbus are registered  
trademarks of Xantrex International.  
Other trademarks, registered trademarks, and product names are the property of their respective owners and are used  
herein for identification purposes only.  
Notice of Copyright  
Xantrex Grid Tie Solar Inverter Owners Manual © November 2006 Xantrex International. All rights reserved.  
Exclusion for Documentation  
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 LOSSES, DAMAGES, COSTS OR EXPENSES, WHETHER SPECIAL,  
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 USERS RISK; AND  
(C) REMINDS YOU THAT IF THIS MANUAL IS IN ANY LANGUAGE OTHER THAN ENGLISH, ALTHOUGH STEPS HAVE BEEN  
TAKEN TO MAINTAIN THE ACCURACY OF THE TRANSLATION, THE ACCURACY CANNOT BE GUARANTEED. APPROVED  
XANTREX CONTENT IS CONTAINED WITH THE ENGLISH LANGUAGE VERSION WHICH IS POSTED AT  
WWW.XANTREX.COM.  
Date and Revision  
November 2006 Revision A  
Manual Part Number  
975-0320-01-01  
Product Part Number  
864-0118  
Contact Information  
Telephone: 1 800 670 0707 (toll free North America)  
1 360 925 5097 (direct)  
Fax:  
1 360 925 5143 (direct)  
Email:  
Web:  
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About This Manual  
The purpose of this Owner’s Manual is to provide explanations and procedures for  
installing, operating, maintaining, and troubleshooting the Xantrex Grid Tie Solar  
Inverter™.  
Scope  
The manual provides safety guidelines, detailed planning and setup information. It  
provides procedures for installing the inverter and information about operating  
and troubleshooting the unit. It does not provide details about particular brands of  
photovoltaic (PV) panels. You need to consult individual PV manufacturers for  
this information.  
Audience  
Organization  
This manual does not provide sufficient information for anyone but a qualified  
installer to install this product. Installers should be electricians or technicians fully  
educated on the hazards of installing electrical equipment. The monitoring and  
operation information in this manual is intended for anyone who needs to operate  
a GT Inverter.  
This manual is organized into 6 chapters and an appendix.  
Chapter 1 contains information about the features and functions of the Xantrex  
Grid Tie Solar Inverter.  
Chapter 2 provides information about installing the GT Inverter. It contains  
information on determining a suitable location for installation, PV array  
requirements, and procedures for mounting the unit.  
Chapter 3 provides information about DC and AC wiring, and grounding the GT  
Inverter and the PV array.  
Chapter 4 contains information on starting up the Xantrex Grid Tie Solar Inverter  
and performing a functional test.  
Chapter 5 contains information for understanding the LCD screens and the LED  
indicators.  
Chapter 6 contains information about how to provide general maintenance for the  
Xantrex Grid Tie Solar Inverter. It also provides information about troubleshooting  
the unit.  
Appendix A contains information about the specifications of the Xantrex Grid Tie  
Solar Inverter.  
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About This Manual  
Conventions Used  
The following conventions are used in this guide.  
WARNING  
Warnings identify conditions 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 which are important for you to know, but not as  
serious as a caution or warning.  
Abbreviations and Acronyms  
CEC  
California Energy Commission  
CSA  
GT  
Canadian Standards Association  
Grid Tie  
LCD  
LED  
MPPT  
NEC  
PV  
Liquid Crystal Display  
Light Emitting Diode  
Maximum Power Point Tracking  
US National Electrical Code NFPA-70  
Photovoltaic  
PVGFP PV Ground Fault Protection  
STC  
UL  
Standard Test Condition  
Underwriters Laboratories  
Volts AC  
Vac  
Vdc  
Volts DC  
V
V
Voltage at Maximum Power  
MPP  
OC  
Open Circuit Voltage  
iv  
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About This Manual  
Symbols Used  
Ground  
In this guide: Important information, warnings, or cautions.  
On the product: Important information, warnings or cautions with further  
explanation in the product guide.  
Caution, risk of electric shock.  
Hot surface—risk of burns.  
FOR AUTHORIZED SERVICE PERSONNEL: Before opening cover,  
disconnect DC and AC power and wait 5 minutes to allow internal voltages  
to reach safe levels.  
5 min.  
NOTE: there are no user-serviceable parts inside.  
Refer to the operating instructions.  
Related Information  
You can find more information about Xantrex Technology Inc. as well as its  
products and services at www.xantrex.com.  
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Important Safety Instructions  
SAVE THESE INSTRUCTIONS—This manual contains important instructions that shall be followed  
during the installation and maintenance of the Xantrex Grid Tie Solar Inverter.  
WARNING  
The following warnings identify conditions or practices that could result in personal injury or loss of life.  
1. Before installing and using the GT Inverter, read all instructions and cautionary markings on the  
inverter, wiring box, and all appropriate sections of this guide.  
2. To reduce risk of fire hazard, do not cover or obstruct the heat sink.  
3. Under some conditions, the GT Inverter heat sink can reach temperatures hot enough to cause skin  
burns if accidentally touched. Ensure that the GT Inverter is located away from normal traffic areas.  
4. Use only accessories recommended or sold by the manufacturer. Doing otherwise may result in a risk  
of fire, electric shock, or injury to persons.  
5. 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 GT Inverter with damaged or substandard wiring.  
6. Do not operate the GT Inverter if it has received a sharp blow, been dropped, or otherwise damaged in  
any way. If the GT Inverter is damaged, see the Warranty section.  
7. Do not disassemble the GT Inverter. It contains no user-serviceable parts. See Warranty for instructions  
on obtaining service. Attempting to service the GT Inverter yourself may result in a risk of electrical  
shock or fire and will void the factory warranty.  
8. Authorized service personnel should reduce the risk of electrical shock by disconnecting both AC and  
DC power from the GT Inverter before attempting any maintenance or cleaning or working on any  
circuits connected to the inverter. Turning off controls will not reduce this risk. Internal capacitors  
remain charged for 5 minutes after disconnecting all sources of power.  
9. Normally grounded conductors may be ungrounded and energized when a ground fault is indicated.  
10. The GT Inverter must be connected to an AC equipment-grounding conductor directly and a DC  
grounding electrode conductor to a single point ground.  
11. The AC Neutral connection is for voltage sensing only and is not used as a current carrying conductor,  
nor is it bonded to ground.  
CAUTION  
The following caution identifies conditions or practices that could result in damage to the unit or other  
equipment.  
Observe the clearance recommendations as described on page 2–7. Do not install the GT Inverter in a zero-  
clearance or non-ventilated compartment. Overheating may result.  
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Safety  
Location of Safety and Data Labels  
The figure below shows the location of the safety label and the data label with model, serial and part  
number information.  
Safety Label  
Data Label  
FCC Information to the User  
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant  
to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful  
interference in a residential installation. This equipment generates, uses and can radiate radio frequency  
energy and, if not installed and used in accordance with the instructions, may cause harmful interference to  
radio communications. However, there is no guarantee that interference will not occur in a particular  
installation. If this equipment does cause harmful interference to radio or television reception, which can  
be determined by turning the equipment off and on, the user is encouraged to try to correct the interference  
by one or more of the following measures:  
Reorient or relocate the receiving antenna.  
Increase the separation between the equipment and the receiver.  
Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.  
Consult the dealer or an experienced radio/TV technician for help.  
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Contents  
Important Safety Instructions - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - vii  
Location of Safety and Data Labels - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - viii  
FCC Information to the User - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - viii  
1
2
Introduction  
About the Xantrex Grid Tie Solar Inverter- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–1  
Standard Features - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–2  
Front Panel Features - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–3  
Wiring/Disconnect Box - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–3  
Installation  
Installation Options - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–1  
Planning the Installation - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–1  
Inverter Location - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–1  
PV Array Voltage and MPPT Requirements - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–3  
Mounting the Inverter - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–5  
Dimensions and Knockout Locations - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–5  
Installing the Mounting Bracket - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–6  
Mounting the Inverter on the Bracket - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–8  
3
Wiring the Inverter  
Grounding Requirements - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–1  
Ground Fault Fuse - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–3  
Wiring Requirements - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–4  
AC Circuit Breaker Requirements - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–4  
DC/AC Disconnect Switch - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–4  
Accessing the Wiring Terminals - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–5  
Connecting the DC Wiring - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–7  
DC Wiring for Multiple Inverters - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–9  
Connecting the AC Wiring - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–10  
DC and AC Wiring for Multiple Inverters - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–11  
Communications Wiring for Multiple Inverters - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–12  
Xanbus Network Technology - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–12  
Guidelines for Routing the Network Cables - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–15  
Connecting Network Cable Between Multiple Inverters - - - - - - - - - - - - - - - - - - - - - - - - - 3–15  
Communications Wiring for Monitoring a Single Inverter - - - - - - - - - - - - - - - - - - - - - - - 3–15  
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Contents  
4
Starting the Inverter  
Startup Procedure - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 4–1  
Checking the PV Array DC Voltage - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 4–2  
Checking the AC Utility Voltage - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 4–2  
Replacing the Wiring/Disconnect Box Cover - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 4–2  
Starting up the GT Inverter - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 4–3  
Commissioning Multiple Inverters - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 4–3  
Disconnect Test - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 4–5  
Locating the Firmware Version Number- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 4–5  
5
Monitoring the Inverter  
Monitoring the Front Panel Display- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5–1  
Front Panel Display Screens and What They Mean - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5–2  
Startup Mode - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5–2  
Normal Operation Mode - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5–4  
Offline Mode - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5–6  
Fault Mode - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5–8  
Special Screens - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -5–10  
Custom Screens - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -5–10  
Status Indicator Lights- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5–11  
6
Maintenance and Troubleshooting  
Factors Affecting GT Inverter Performance - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 6–1  
PV Array Factors - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 6–1  
Other Factors - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 6–2  
Performing General Maintenance - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 6–3  
Replacing Parts - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 6–3  
Replacing the Ground Fault Protection Fuse - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 6–4  
Replacing the Inverter - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 6–6  
Identifying Error/Fault Conditions and Solutions- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 6–9  
A
Specifications  
Electrical Specifications - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - A–2  
Input - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - A–2  
Output - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - A–2  
Adjustable Voltage, Frequency and Reconnection Settings - - - - - - - - - - - - - - - - - - - - - - - A–3  
Output Power Versus Ambient Temperature- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - A–3  
Efficiency - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - A–4  
Environmental Specifications - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - A–4  
User Display - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - A–4  
Display Accuracy - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - A–5  
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Contents  
Mechanical Specifications - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - A–5  
Regulatory Approvals - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - A–5  
Warranty and Return Information - - - - - - - - - - - - - - - - - - - - - - - - - - - - -WA1  
Index - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -IX1  
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Introduction  
1
Chapter 1 contains information about the features and functions of the  
Xantrex Grid Tie Solar Inverter.  
About the Xantrex Grid Tie Solar Inverter  
The Xantrex Grid Tie Solar Inverter (GT Inverter) is designed to convert solar  
electric (photovoltaic or PV) power into utility-grade electricity that can be used  
by the home or sold to the local power company.  
Installing the GT Inverter consists of mounting it to the wall and connecting the  
DC input to a PV array and the AC output to the utility. See Figure 1-1 for a  
simple diagram of a typical installation.  
In order to operate, the GT Inverter must have grid power available and connected.  
It will not provide backup power if the AC grid fails.  
Photovoltaic (PV)  
Panels - PV Array  
Utility  
Meter  
Utility Grid  
Harvested  
solar energy  
Surplus power routed  
to Utility Grid  
Power routed  
to loads  
DC converted  
to AC  
Main Utility  
Grid Tie Inverter  
Service Panel  
Xantrex  
GT Inverter  
Loads  
Figure 1-1 Basic System Overview  
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Introduction  
PV compatibility  
The GT Inverter is designed to take advantage of solar modules configured as high  
voltage PV string arrays—single crystalline, poly crystalline, or thin film—with a  
240 to 550 Vdc input voltage Maximum Power Point range.  
Maximum Power  
Point Tracking  
(MPPT)  
The GT Inverter uses Xantrex proprietary Maximum Power Point Tracking  
(MPPT) technology to harvest the maximum amount of energy from the solar  
array. Xantrex MPPT learns your array’s specific characteristics, maximizing its  
output at all times.  
High efficiency  
Expandable  
The high-frequency, solid-state design of the GT Inverter is extremely efficient—  
up to 96.2%.  
Multiple GT Inverters may be networked together for increased net metering  
capacity or future system growth. The GT Inverter GT5.0 has adjustable voltage  
and frequency disconnect settings and can be aggregated above 30 kW on a single  
point-of-common-coupling (PCC). See “Adjustable Voltage, Frequency and  
Reconnection Settings” on page A–3.  
Communications  
protocol  
The GT Inverter uses the Xanbus® communications protocol, enabling it to  
communicate with multiple units connected within the system. For more  
information, see “Xanbus Network Technology” on page 3–12.  
Standard Features  
The GT Inverter has the following standard features:  
Sealed inverter section protecting power electronic components;  
Liquid Crystal Display (LCD) providing easy-to-read system status and daily  
cumulative energy production information;  
Two LED indicator lights providing status and ground fault indication;  
Wiring/disconnect box providing protection for all AC and DC connections  
and eliminating exposed “live” wiring if the inverter is removed.  
The wiring/disconnect box has been designed to be physically mated to the  
electronics section of the GT Inverter at the factory, but remains in place as a  
non-serviceable item in the event that the inverter electronics section is ever  
required to be removed. The inverter and wiring/disconnect box together form  
an NEMA 3R enclosure to allow outdoor installation.  
WARNING: Shock hazard  
The 600 volt DC/AC disconnect in the wiring/disconnect box meets NEC Article 690. It is  
a non-serviceable component and shall remain in place. Separating the inverter and  
wiring/disconnect box, or removing the wiring/disconnect box cover can expose  
energized conductors. PV input circuits in the wiring box ahead of the switch remain  
energized even when the switch is in the “off” position—hazardous voltage will still be  
present on the DC input (PV) terminals under the clear plastic insulation barrier inside the  
wiring/disconnect box.  
1–2  
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About the Xantrex Grid Tie Solar Inverter  
Front Panel Features  
Heat Sink  
LCD  
LED Indicator Lights  
Grid Tie Solar Inverter  
Wiring/Disconnect Box  
DC/AC Disconnect Switch  
Mounting Slots  
Figure 1-2 Main Features of the GT Inverter  
Wiring/Disconnect Box  
The wiring/disconnect box is standard for all North American models of the GT  
Inverter. The wiring/disconnect box provides a location for making AC, DC and  
ground connections. It also contains the DC/AC (PV array/utility) disconnect  
switch. When used with the GT Inverter, the DC/AC disconnect switch is 600V  
AC and DC rated and is identified on the outside by an illustration showing the  
open and closed switch positions. The switch is lockable, and meets NEC section  
690 requirements as a means of disconnect.  
In jurisdictions where the local utility requires that the AC disconnect be capable  
of being locked in the open position by its service personnel, this disconnect  
switch can also serve as a lockable isolating device.  
Important: In North America and other locations the wiring/disconnect box is an  
electrical code requirement. Regulatory approval is based on the wiring/disconnect box  
always being attached to the inverter during operation. Any attempt to remove this box  
will invalidate the approvals and create an electrical hazard.  
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Installation  
2
Chapter 2 provides information about installing the GT Inverter. It contains  
information on determining a suitable location for installation, PV array  
requirements, and procedures for mounting the unit.  
Installation Options  
The GT Inverter may be installed as a single inverter for a single PV array of one  
to three PV strings (an external fuse box is required when three PV strings are  
connected), or in a multiple inverter configuration for multiple PV arrays.  
If multiple inverters are used, each inverter must be wired to an independent PV  
array.  
Communications between inverters can be enabled by installing network cabling  
to the inverter RJ45 ports. See “Connecting Network Cable Between Multiple  
Inverters” on page 3–15.  
Planning the Installation  
Ensure that you have obtained all permits required by local authorities or utilities  
before beginning installation.  
Inverter Location  
WARNING: Burn hazard  
Do not install in a location where people can accidentally come into contact with the front  
of the inverter. High temperatures can be present on the face of the inverter, causing a  
potential burn hazard.  
In extreme conditions, the GT Inverter chassis can reach temperatures over 70° C  
(158° F), which can cause skin burns if accidentally touched. Ensure that the GT Inverter  
is located away from normal traffic areas.  
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Installation  
Inverter failure due to improper installation will void the inverter warranty.  
Consider the following when determining where to install the inverter.  
The GT Inverter uses a Type 3R-rated enclosure (vertical mount only)  
that can be mounted indoors or outdoors. (Type 3R enclosures are  
intended for outdoor use primarily to provide a degree of protection  
against falling rain; and to be undamaged by the formation of ice on the  
enclosure.)  
Indoor/  
Outdoor  
While the 3R-rated enclosure protects the GT Inverter from moisture,  
outdoor installations should be located away from lawn sprinklers and  
other sources of spray.  
A sun shade is recommended for outdoor installations. In bright sun  
conditions, when the GT Inverter is at or near full output with an  
ambient temperature above 40 °C (104 °F), shading the unit will help  
increase inverter performance. A sun shade can also protect the inverter  
from dust, debris, and birds. The sun shade should be made from an  
opaque material that provides shade for the heat sink. It should be large  
enough and positioned so that it shades the heat sink for all sun angles.  
Ensure that the shade is installed according to the minimum clearances  
specified on page 2–7.  
The GT Inverter must be mounted vertically on a wall or pole.  
Do not mount the GT Inverter horizontally.  
If mounting the inverter indoors on a south-facing wall, ensure the wall  
is insulated to reduce the amount of heat absorbed by the inverter.  
Unless walls are properly insulated, avoid mounting the inverter  
indoors on any wall that is directly exposed to the sun.  
Orientation  
Temperature  
Ensure that the GT Inverter is mounted in a location where the ambient  
temperature range is -25 to +65 °C (-13 to +149 °F).  
Above 40 °C (104 °F), the GT Inverter may derate power output.  
See“Output Power vs. Ambient Temperature” on page A–3 and  
“Environmental Specifications” on page A–4.  
At extreme hot or cold temperatures, the front panel LCD may not  
function normally.  
Outdoors, the GT Inverter requires at least 100 cm (39 inches) of  
clearance between the bottom of the unit and the ground.  
Ground  
Clearance  
To minimize resistance and resulting power loss, ensure that wire  
lengths between the PV array and the GT Inverter and between the  
inverter and the Main Utility Service Panel are kept to a minimum.  
Maximum distances will depend on wire gauges used and PV array  
output voltages.  
Distance  
Excessive debris (such as dust, leaves, and cobwebs) can accumulate  
on the unit, interfering with wiring connections and ventilation. Do not  
install in a location where debris can accumulate (under a tree, for  
example).  
Debris free  
2–2  
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Planning the Installation  
PV Array Voltage and MPPT Requirements  
WARNING: Shock hazard  
Whenever a PV array is exposed to sunlight, a shock hazard exists at the output wires or  
exposed terminals. To reduce the risk of shock during installation, cover the array with an  
opaque (dark) material before making any connections, and always test for voltage before  
touching exposed wiring or devices.  
MPPT operational  
window  
The MPPT software maximizes the output energy of solar arrays as long as the  
operating voltage is within the MPPT operational window. Ensure that the PV  
array used in the system operates within the MPPT operational window.  
Effects of array voltages outside of the MPPT operational window are shown in  
Table 2-1.  
Table 2-1 MPPT Operational Window  
Voltage  
< 240 Vdc  
Effect of Array Voltage  
Inverter Mode  
Off-line  
V
Inverter not operating.  
oc  
V
< 240 Vdc  
Operating voltage shifts to 240 Vdc; the array is not at its  
maximum power point.  
On-line (low power)  
MPP  
(V > 240 Vdc)  
oc  
V
V
V
240 to 550 Vdc  
550 to 600 Vdc  
> 600 Vdc  
Maximum harvest of solar energy.  
On-line (MPPT window)  
On-line (power derating)  
Off-line (shutdown)  
MPP  
MPP  
MPP  
Does not allow maximum harvest of solar energy.  
Inverter stops delivering power and shuts down. Inverter  
may be damaged.  
(or V > 600 Vdc)  
oc  
Voltage  
requirements  
The maximum power point voltage of a string connected to the GT Inverter should  
preferably be above 240 Vdc. If it is less than 240 Vdc, the inverter continues to  
operate, but it regulates the PV voltage to 240 V. Because the array is not  
operating at its maximum power point, this may result in lower than expected  
energy harvest. If Voc is below 240 Vdc, the inverter remains off-line and does not  
deliver power.  
CAUTION: Equipment damage  
To prevent damage to the inverter, the array voltage must never exceed 600 V (open  
oc  
circuit voltage) under any condition.  
The open circuit voltage of the array under normal conditions should be above  
240 Vdc.  
The short circuit current (Isc) rating of the array at any temperature must not  
exceed the Isc rating of the inverter. For maximum solar energy harvest, it is  
recommended that the effective power output of the array be matched with the  
input power capacity of the inverter.  
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Installation  
Guidelines for Matching PV Array Size to Xantrex Grid Tie Solar Inverter Input  
Consider the expected Voc of the string under all possible conditions. The  
panel manufacturer provides a Voc rating per panel, but it is usually rated at  
25 °C (77 °F). Ensure that the Voc rating at the coldest ambient temperature  
does not exceed 600 Vdc. Panel voltage increases in cold temperatures—the  
panel manufacturer should be able to provide a coefficient of voltage increase  
per degree.  
The NEC also has required temperature/voltage deratings that must be used;  
these can be found in article 690 of the NEC. You need to determine the  
coldest temperatures expected on the site, and size the array strings  
accordingly. To prevent inverter damage, the array’s maximum DC voltage in  
the coldest expected temperature, with both manufacturer coefficient and  
NEC derating, must not exceed 600 Vdc.  
Panel voltage decreases in high temperatures. This will affect the panels’ V  
MPP  
and V . Again, the manufacturer’s coefficient must be used with the highest  
oc  
expected temperature to determine the minimum V  
and V .  
oc  
MPP  
Note: The GT PV array sizing tool is available at www.xantrex.com.  
2–4  
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Mounting the Inverter  
Mounting the Inverter  
Dimensions and Knockout Locations  
The dimensions of the inverter and the mounting bracket and some of the  
knockout locations on the wiring/disconnect box are shown in Figure 2-1 and  
Figure 2-2.  
Four 27 or 35 mm (1 or 1-3/8 inch) dual knockouts are provided on the back and  
bottom of the unit to accommodate wiring.  
Four 27 mm (1 inch) conduit holes on the sides of the wiring/disconnect box (two  
on each side) are filled with plastic plugs, which can be removed to insert conduit  
nipples as required for multiple inverter installations. One or two of these side  
conduit holes may be used to accommodate Xanbus network cables connected  
between multiple inverters.  
13.7  
(5 3/8)  
55  
(21 5/8)  
2.7 cm (1")  
conduit holes  
with threaded  
caps, both  
sides  
69.9  
(27 1/2)  
72.6  
(28 9/16)  
6.52  
(2 9/16)  
11  
(4 5/16)  
40.3 (15 7/8)  
27.9 (11)  
6.15  
(2 7/16)  
Dual 3.5 cm or 2.7 cm  
(1 3/8" or 1") knockouts  
Dual 3.5 cm or 2.7 cm  
(1 3/8" or 1") knockouts  
5.2 (2)  
All measurements  
in cm (inches).  
6.2 (2 7/16)  
27.9 (11)  
Figure 2-1 Dimensions of GT Inverter and Knockout Locations  
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Installation  
Installing the Mounting Bracket  
The mounting bracket is designed to be affixed to the vertical structure or surface  
to which the GT Inverter will be mounted. The GT Inverter mounting hooks attach  
to the flanges on the mounting bracket.  
If mounting more than one inverter, install each mounting bracket at least 15 cm  
(6 inches) apart to provide enough space for the inverters to hang side by side.  
Mounting bracket  
Back side of the inverter  
25.3 (10)  
Rectangular slots × 25:  
0.8 × 3 (5/16 × 1 3/16)  
Mounting hooks  
Mounting flanges  
All measurements  
in cm (inches).  
3.8 (1 1/2) from  
bottom of bracket  
to knockout center  
1.3 (1/2) from side of bracket  
to knockout center  
Mounting slots for  
securing the inverter  
Figure 2-2 Mounting Bracket and GT Inverter  
2–6  
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Mounting the Inverter  
Clearance Requirements  
For optimal and safe operation, ensure there is adequate clearance around the  
inverter. If the minimum clearances in Table 2-2 are are not met, rated power may  
not be achieved.  
Table 2-2 Inverter Clearance Requirements  
Location  
Above  
Minimum Clearance  
30 cm (12 inches)  
Outdoors:  
Below:  
The inverter extends  
below the bracket by  
approximately 10 cm  
Inverter  
Bracket  
100 cm (39 inches)  
110 cm (43 inches)  
For indoor installations, there is no clearance (4 inches)  
requirement between the bottom of the  
inverter and the ground.  
In front  
30 cm (12 inches) minimum. 91 cm (36 inches) are recommended for  
easy access for reading the display, avoiding accidental contact with hot  
surface, and servicing the inverter.  
On sides  
Units can be mounted side by side with no clearance between them, but  
15 cm (6 inches) of clearance around the outside edges of the outermost  
two units is recommended. In hot climates, some clearance between units  
may be needed to prevent thermal derating.  
Surfaces for Mounting  
The GT Inverter can be mounted to a vertical surface such as wallboard, wood  
siding, concrete wall, or pole assembly. Ensure the mounting surface or structure  
can support the weight of the inverter (26 kg/58 lb) as well as the associated  
wiring and conduit. Installation onto wallboard requires either the use of a  
supporting material such as plywood or securing the mounting screws to  
supporting wall studs.  
Important:  
Local codes may impose additional mounting requirements in earthquake or other  
high-risk areas.  
No mounting hardware is supplied with the GT Inverter. It is recommended to use  
6 mm (¼ inch) diameter fasteners. However, because mounting surfaces can vary,  
installers must select appropriate hardware for each installation.  
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Installation  
Mounting the Inverter on the Bracket  
Place the inverter’s mounting hooks over the flanges on the bracket. Ensure the  
inverter is seated properly, then secure the bottom of the inverter with appropriate  
screws or anchors through the mounting slots.  
Flange with  
mounting slots  
110 cm (43")  
Ground/floor  
100 cm (39")  
Ground clearance  
requiredforoutdoor  
installation  
Figure 2-3 Placing the Inverter on the Mounting Bracket  
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Wiring the Inverter  
3
Chapter 3 provides information about DC and AC wiring, and grounding  
the GT Inverter and the PV array.  
This chapter does not provide sufficient information for anyone but a  
qualified installer to install this product. Installers should be electricians or  
technicians fully educated on the hazards of installing electrical equipment.  
Grounding Requirements  
AC Grounding  
The GT Inverter must be connected to the AC ground from the utility via the GT  
Inverter ground bar.  
PV Grounding  
The PV array (frame) ground should be connected to the GT Inverter ground bar.  
The size for the conductor is usually based on the size of the largest conductor in  
the DC system.  
A DC grounding electrode conductor may be required by the Authority Having  
Jurisdiction (AHJ). Use the GT Inverter ground bar for this connection (see  
Figure 3-2 on page 3–3).  
CAUTION: Equipment damage  
Provide adequate clearance for grounding wires inside the GT Inverter wiring box. Ensure  
that the bare copper grounding wire is more than ½ inch clear of the DC/AC interconnect  
circuit board.  
Two ¼-inch (7 mm) knockouts in the bottom of the wiring box are intended for  
routing the ground conductors to the ground bar. See Figure 3-1.  
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Wiring the Inverter  
Ground bar  
Knockouts for ground conductors  
Figure 3-1 Ground Conductor Knockouts  
The ground bar accepts wires up to #4 AWG. Torque ground wires as specified in  
Table 3-1.  
Table 3-1 Torque Values for Ground Wiring  
Wire Size  
Torque Value  
in-lb Nm  
2.5–6.0 25–35  
2
AWG  
14–10  
8
mm  
3.0–4.0  
3.4–4.5  
4.0–5.0  
10  
30–40  
35–45  
6–4  
16–25  
Important: In most models, the negative PV conductor is internally bonded to the  
ground system within the inverter’s ground fault detection circuit. Inverter models marked  
with the “-POS” suffix are positive grounded and have the positive PV conductor  
internally bonded to the ground system through the inverter’s ground fault protection  
circuit. It is important that the negative (or positive) PV conductor is not bonded to the  
ground at any other point in the system.  
3–2  
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Grounding Requirements  
PV1 String #1  
PV1 String #2 PV1 String #3  
L2  
L1  
Neutral  
L1  
L2  
L1 L2  
N
G
Ground  
Grounding electrode  
Figure 3-2 Grounding Diagram  
Ground Fault Fuse  
The GT Inverter is equipped with a 600 volt, 1 amp ground fault protection fuse  
(replace with Littelfuse KLKD 1 or equivalent).  
WARNING: Shock hazard  
Do not attempt to service the ground fault protection fuse yourself. This should only be  
done by qualified service personnel, such as certified electricians or technicians. See  
“Replacing the Ground Fault Protection Fuse” on page 6–4.  
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Wiring the Inverter  
Wiring Requirements  
WARNING: Shock hazard  
Check for existing electrical or plumbing prior to drilling holes in the walls.  
The AC and DC terminal blocks in the GT Inverter accept wire sizes from  
#14 AWG to #6 AWG. Undersized wiring can result in significant power losses  
and reduction in system efficiency. Strip all wires 9 mm (3/8 inch) and torque to a  
maximum 16 in-lb (1.8 Nm). Use copper conductors only, rated 90 °C.  
For safety and compliance with the NEC, run AC, DC, and communication wires  
in separate conduits.  
WARNING: Fire hazard  
Wiring should not be undersized. Wire sizes must be coordinated with the array maximum  
short circuit current or the AC breaker sizes used. Ensure wiring is in accordance with the  
NEC or applicable codes.  
AC Circuit Breaker Requirements  
The main utility service panel must dedicate a double pole breaker to operate each  
GT Inverter installed. This breaker must be sized to handle the rated maximum  
output voltage and current of the GT Inverter (see “Electrical Specifications”,  
“Output” on page A–2).  
DC/AC Disconnect Switch  
The wiring box includes a 600 volt PV/Utility disconnect switch that switches  
both AC and DC at the same time.  
Depending on the installation, an external AC and/or DC disconnect may be  
required if the inverter is installed in a location not easily accessible to utility or  
fire personnel. Consult local authorities for additional information.  
Important: The DC terminal block has six inputs for connecting up to three PV strings.  
In accordance with applicable codes, if the array consists of more than two strings,  
external fusing may be required to prevent conductor overloads.  
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Accessing the Wiring Terminals  
WARNING: Shock hazard  
Do not remove the wiring/disconnect box. The 600 volt DC/AC disconnect in the wiring  
box meets NEC Article 690. It is a non-serviceable component and shall remain in place.  
Removal can expose energized conductors.  
Use caution when working around sources of DC power. Although the DC/AC disconnect  
switch disconnects the inverter from DC power, hazardous voltages from paralleled PV  
strings will still be present upstream of the switch and inside the wiring box. To reduce the  
risk of shock during installation, cover the array with an opaque (dark) material before  
making any connections, and always test for voltage before touching exposed wiring or  
devices.  
Accessing the Wiring Terminals  
You must remove the GT Inverter wiring box cover to access the terminal blocks,  
ground bar and communications ports.  
To remove the wiring box cover:  
Using a Phillips screwdriver, remove the two screws on the bottom side of the  
wiring box and lift the cover off the wiring box (see Figure 3-3).  
Wiring box  
cover screws  
Figure 3-3 Removing the Wiring Box Cover  
AC and DC connections are made at the wiring terminals shown in Figure 3-5.  
Insulating barrier  
The clear plastic insulating barrier inside the wiring box is a permanent  
component. It is intended to separate the high-voltage AC and DC wiring from  
any communications cabling.  
When wiring the unit, it is necessary to pull the barrier back to access the wiring  
terminals. See Figure 3-4. After completing the wiring, return the insulating  
barrier to its original position.  
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Wiring the Inverter  
Lift bottom edge of barrier  
to access wiring terminals.  
Figure 3-4 Insulating Barrier Location  
(AC L1) (AC L2) (NEUT)  
(GND)  
(PV-)  
(PV+)  
Figure 3-5 AC and DC Terminal Block Location  
3–6  
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Connecting the DC Wiring  
Connecting the DC Wiring  
WARNING: Shock hazard  
Use caution when working around sources of DC power. Although the DC/AC disconnect  
switch disconnects the inverter from DC power, hazardous voltages from paralleled PV  
strings will still be present upstream of the switch and inside the wiring box. To reduce the  
risk of shock during installation, cover the array with an opaque (dark) material before  
making any connections, ensure the DC/AC Disconnect Switch is set to OFF (see  
Figure 3-6), and always test for voltage before touching exposed wiring or devices.  
Figure 3-6 DC/AC Disconnect Switch Positions  
The following procedure is illustrated in Figure 3-7. If there is more than one PV  
string, label the positive and negative wire pairs appropriately (for example:  
PV1-String #1 POS, PV1-String #1 NEG, PV1-String #1 GND,  
PV1-String #2 POS, etc.).  
To wire the PV array to the GT Inverter:  
1. Connect the POSITIVE (+) wire from the PV1 string #1 to one of the PV+  
terminals.  
2. Connect the NEGATIVE (–) wire from the PV1 string #1 to one of the  
PV– terminals.  
3. Repeat for the PV1 string #2, if there is one.  
4. Repeat for the PV1 string #3, if there is one.  
5. Ensure all connections are correctly wired and properly torqued to a  
maximum 16 in-lb (1.8 Nm).  
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Wiring the Inverter  
PV1 String #1  
PV1 String #2 PV1 String #3  
+
+
+
L1 L2  
N
G
Grounding not shown.  
Figure 3-7 DC Connections for Multiple PV Strings  
Important: Depending upon installation and local codes, fusing and/or a combiner  
box may be required. This fusing and combiner box are to be provided by the installer.  
Important: A DC grounding electrode conductor may be required by the AHJ. Check  
local codes before installation.  
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Connecting the DC Wiring  
DC Wiring for Multiple Inverters  
For installations with multiple GT Inverters, separate solar arrays are required for  
each unit. The output of each GT Inverter feeds a separate dual-pole 30-amp  
circuit breaker (L1 and L2) in the main utility service panel.  
For such installations, complete the wiring and perform the commissioning  
procedure for each inverter one at a time. For the commissioning procedure, see  
“Commissioning Multiple Inverters” on page 4–3.  
WARNING: Shock hazard and equipment failure  
Ensure each inverter is correctly connected to its own PV array(s) and that no wires are  
crossed. If inverters “share” more than one PV array, an input current difference of over 1  
A between arrays can cause each inverter to fail—the ground fault protection fuse will  
blow, followed by short circuit failure. This failure will also generate hazardous voltages  
at the DC/AC disconnect switch on each unit.  
For example, connect PV1 positive (+) and PV1 negative (–) to inverter 1 and PV2  
positive (+) and PV2 negative (–) to inverter 2.  
Do not connect PV1 positive (+) and PV2 negative (–) to inverter 1 and PV2 positive (+)  
and PV1 negative (–) to inverter 2. See Figure 3-6.  
+
+
PV Array #1 (PV1)  
PV Array #2 (PV2)  
GT Inverter #2  
GT Inverter #1  
Grounding not shown.  
Figure 3-8 Improper Multiple Inverter Connections  
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Wiring the Inverter  
Connecting the AC Wiring  
WARNING: Shock hazard  
Before wiring the GT Inverter, ensure the main breaker in the primary utility breaker box  
is switched OFF. Switch this breaker ON only after all wiring is completed as instructed in  
the procedures.  
The GT Inverter can be connected to a single bi-directional meter, or to dual  
meters, where one meter indicates power used and the second meter indicates  
power sold (power supplied back to the utility). Consult the local utility to  
determine the proper components to install, and obtain any permits required prior  
to installation.  
Ensure all connections are correctly wired and properly torqued to a maximum  
16 in-lb (1.8 Nm).  
The AC wiring procedure is illustrated in Figure 3-9.  
Important: The neutral conductor must be attached to the inverter in all cases. The  
neutral conductor is used for phase-to-neutral voltage sensing only and is not a current  
carrying conductor. This conductor is not bonded to ground in the inverter.  
Utility Meter  
L2  
L1  
Neutral  
L1  
L2  
L1 L2  
N
G
Ground  
Grounding not shown  
Main Service Utility Panel  
Figure 3-9 AC Connections from GT Inverter to Utility Service Panel  
3–10  
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DC and AC Wiring for Multiple Inverters  
DC and AC Wiring for Multiple Inverters  
DC and AC wiring for multiple inverters is illustrated in Figure 3-10.  
If there will be more than one PV array, label the positive and negative wire pairs  
appropriately (for example: PV1 POS, PV1 NEG, PV1 GND, PV2 POS, etc.).  
If required by the AHJ, a DC grounding conductor may be connected to each  
inverter’s ground bar. One inverter will connect to a common grounding  
conductor. The other inverters will use tap connectors. Connection is then made to  
the DC or AC grounding electrode as per NEC 690.47.  
Ensure all connections are correctly wired and properly torqued to a maximum  
16 in-lb (1.8 Nm).  
PV Array #2 (PV2)  
+
+
PV Array #1 (PV1)  
Utility Meter  
L1 L2  
N G  
L2  
L1  
Neutral  
L1  
L2  
L1  
L2  
Ground  
Main Utility Service Panel  
Grounding not shown.  
L1 L2  
N G  
Figure 3-10 DC and AC Wiring With Multiple GT Inverters  
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Wiring the Inverter  
Communications Wiring for Multiple Inverters  
Communications wiring between multiple GT Inverters allows information about  
each inverter and its associated PV array to be communicated between all of the  
inverters in the system. Information about the entire system can be displayed on  
any inverter LCD in the system.  
For example, in a two-inverter system, if inverter #1 is producing 1500 W and  
inverter #2 is producing 2000 W, both inverters display a total system power of  
3500 W. The cumulative energy produced by both inverters that day is also  
displayed.  
You can still view information for an individual inverter in a system. See “To view  
unit-specific screens in a multiple unit system:” on page 5–5.  
Without communications wiring (network cables) each inverter in a system will  
only display information pertinent to the unit and its associated PV array.  
Xanbus Network Technology  
GT Inverters use Xanbus technology to communicate with other GT Inverters.  
Network connections for multiple inverters are laid out in a “daisy chain” pattern,  
each device on the network linked together with separate lengths of cable, as  
shown in Figure 3-11.  
Network terminator  
Network terminator  
Xanbus cable  
Figure 3-11 Daisy Chain Layout  
CAUTION: Equipment damage  
Connect only Xanbus-enabled devices.  
Although the cabling and connectors used in this network system are the same as ethernet  
connectors, this network is not an ethernet system. Equipment damage may result from  
attempting to connect Xanbus to different systems.  
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Communications Wiring for Multiple Inverters  
Terminators  
The male network terminator supplied with each GT Inverter (Figure 3-12) is  
required at each end of the network to ensure the communication signal quality on  
the network.  
Figure 3-12 Male Network Terminator  
GT Inverter Xanbus  
Ports  
Two RJ45 ports are provided in the GT Inverter, accessible from the wiring box.  
See Figure 3-13 for the location of these ports.  
RJ11 ports  
(not used)  
RJ45  
Xanbus ports  
RS-232 port (used to connect a PC to use GT-View.  
See page 3–15 and page 5–10)  
Male network terminator  
Figure 3-13 Xanbus RJ45 Ports in the GT Inverter Wiring Box  
Cabling Requirements  
CAUTION: Equipment damage  
Do not use crossover cable in a Xanbus system.  
The network uses Category 5 (CAT 5 or CAT5e) cable, a standard cable available  
from any computer supply store. The cable consists of eight conductors in four  
twisted pairs with an RJ45 modular connector wired to the T568A standard.  
Table 3-2 contains the arrangements of wire colors to pin numbers for the T568A  
standard.  
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Wiring the Inverter  
Table 3-2 T568A Standard Wiring  
CAT 5 Cable  
Pin Number Conductor Name Insulation Color  
CAT 5e Cable  
Insulation Color  
1
2
3
4
5
6
7
8
NET_S  
NET_S  
NET_C  
CAN_L  
CAN_H  
NET_C  
NET_S  
NET_C  
White/Green  
Green  
White/Orange  
Orange  
White/Orange  
Blue  
White/Green  
Blue  
White/Blue  
Orange  
White/Blue  
Green  
White/Brown  
Brown  
White/Brown  
Brown  
Pins:  
8 7 6 5 4 3 2 1  
Figure 3-14 RJ45 Connector  
Purchasing Network Components  
Consult your system designer to determine what network components will be  
needed for your specific installation. Table 3-3 provides a partial list of network  
components and part numbers. Pre-made cables are available in standard lengths  
from 3 feet to 75 feet.  
Call your dealer or visit www.xantrex.com to purchase network components.  
Table 3-3 Network Components and Part Numbers  
Network Component  
Part Number  
809-0901  
809-0935  
809-0936  
809-0937  
809-0938  
809-0939  
809-0940  
809-0941  
809-0942  
Network termination — Male (2 per pack)  
Network cable 3 ft. (0.9 m)  
Network cable 5 feet (1.5 m)  
Network cable 7 feet (2.0 m)  
Network cable 10 feet (3.0 m)  
Network cable 14 feet (4.3 m)  
Network cable 25 feet (7.6 m)  
Network cable 50 feet (15.2 m)  
Network cable 75 feet (22.9 m)  
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Communications Wiring for Multiple Inverters  
Guidelines for Routing the Network Cables  
WARNING: Shock hazard  
Do not route the network cables in the same conduit or panel as the AC and DC power  
cabling. The cables should run on top of the insulation barrier inside the wiring/disconnect  
box and out the side conduit hole, avoiding any contact with the AC and DC wiring.  
:
CAUTION: Unpredictable device behavior  
Do not connect one end of the network to the other to make a ring or loop.  
Connecting Network Cable Between Multiple Inverters  
The following procedure is illustrated in Figure 3-11. The procedure assumes only  
two inverters are connected. However, there can be up to ten inverters wired in  
this configuration.  
WARNING: Shock hazard  
Before opening the GT Inverter wiring/disconnect box, turn OFF the breaker switches  
connected to the GT Inverter AC output, and turn the DC/AC Disconnect switch to the  
OFF position. Hazardous voltage will still be present on the DC input (PV) terminals  
located under the clear plastic insulation barrier. Do not remove the insulation barrier  
during this procedure. To reduce the risk of shock, cover the array with an opaque (dark)  
material.  
To provide communication between multiple inverters:  
1. Remove the wiring/disconnect box cover from each unit.  
2. Connect the network cable to any RJ45 port in Inverter #1.  
3. Route the cable along the top of the insulation barrier and through a side  
conduit hole to Inverter #2.  
4. Connect the network cable to any RJ45 port in Inverter #2.  
5. For more than two inverters, continue connecting cable as described above.  
6. Insert male network terminators into the empty RJ45 ports in the inverters at  
the beginning and end of the network. There should be no empty RJ45 ports in  
any of the inverters.  
Communications Wiring for Monitoring a Single Inverter  
You can view GT Inverter operational data on a personal computer using the  
Xantrex GT Solar Inverter Viewer (“GT-View”), which you can download free of  
charge at www.xantrex.com.  
To use GT-View, you must connect your computer’s serial port to the GT Inverter  
RS-232 port (see Figure 3-13).  
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Wiring the Inverter  
RS-232 cable  
requirements  
To connect your computer to the GT Inverter, you must use a serial DB9 “straight  
through” cable.  
The RS-232 connector on the GT is configured as follows:  
Pin 2: transmit  
Pin 3: received  
Pin 5: ground.  
All other pins are unused.  
To connect a single GT Inverter to a personal computer:  
WARNING: Shock hazard  
Before opening the GT Inverter wiring/disconnect box, turn OFF the breaker switches  
connected to the GT Inverter AC output, and turn the DC/AC Disconnect switch to the  
OFF position. Hazardous voltage will still be present on the DC input (PV) terminals  
located under the clear plastic insulation barrier. Do not remove the insulation barrier  
during this procedure. To reduce the risk of shock, cover the array with an opaque (dark)  
material.  
1. Feed the male end of the serial cable through a side conduit hole on the GT  
Inverter.  
If the end of the serial cable is too large to fit through the conduit hole, you  
may need to use two DB9 to CAT 5 adaptors. Plug the DB9 end of the adapter  
into the GT Inverter, and feed the CAT 5 end of the cable out the conduit hole.  
Use another adapter to convert the CAT 5 end of the cable back to DB9.  
2. Plug the male end of the serial cable into the GT Inverter RS-232 port.  
3. Plug the female end of the serial cable into your computer’s serial port.  
4. Replace the wiring/disconnect box cover.  
5. Turn the DC/AC disconnect switch to the ON position and turn the main  
utility panel breaker switches ON.  
When power is restored to the GT Inverter, you can run GT-View on your  
computer to monitor the inverter’s operation.  
Note: In multiple installations, GT-View monitors only the inverter to which the  
computer is connected. However, if the inverters are connected with a Xanbus network  
cable, GT-View will display total system wattage and the accumulated daily energy  
produced by all inverters. To monitor multiple inverters, you require multiple DB9 cable  
connections (one per inverter) to your computer.  
For more information about GT-View, see the GT-View User Manual, included  
with the GT-View software.  
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Starting the Inverter  
4
Chapter 4 contains information on starting up the Xantrex Grid Tie Solar  
Inverter and performing a functional test.  
The topics in this chapter are organized as follows:  
“Startup Procedure” on page 4–1  
“Commissioning Multiple Inverters” on page 4–3  
“Disconnect Test” on page 4–5  
Startup Procedure  
Starting up the GT Inverter requires several steps. You will need to:  
1. Ensure the DC/AC Disconnect switch is in the OFF position (see Figure 4-1).  
2. Check the PV array DC voltage (see procedure below).  
3. Check the AC utility voltage (see procedure below).  
4. Replace the cover on the wiring box (see “Replacing the Wiring/Disconnect  
Box Cover” on page 4–2).  
5. Start up the GT Inverter by switching the DC/AC Disconnect switch ON.  
WARNING: Shock hazard  
Hazardous voltages are present from two sources. Use extreme caution during startup  
procedure. Before applying power to the GT Inverter, ensure all AC and DC wiring is  
correct.  
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Starting the Inverter  
Checking the PV Array DC Voltage  
To check the PV array DC voltage:  
1. Uncover the PV arrays and expose them to full sunlight. The sunlight must be  
intense enough to produce the required output voltage.  
2. Measure the PV array open circuit DC voltage across the DC positive (+) and  
negative (–) terminals. This voltage must be greater than 150 volts DC (to  
energize the electronics) and less than 600 volts DC (to prevent damage to the  
inverter).  
Checking the AC Utility Voltage  
To check the AC utility voltage:  
1. Switch on the main and inverter breakers in the main electrical service panel.  
2. Using an AC voltmeter, measure the AC open circuit utility voltage between  
L1 and L2. Ensure this voltage is at approximately the nominal value. The  
inverter operates with a line-to-line voltage (L1 to L2) range around the  
nominal value.  
See “Electrical Specifications”, “Output” on page A–2 for the utility voltage  
operating range for your GT Inverter model.  
Replacing the Wiring/Disconnect Box Cover  
After performing the voltage checks, replace all covers that were removed during  
installation and startup.  
WARNING: Shock hazard  
Before reattaching covers, turn OFF the breaker switches in the main utility service panel  
and the DC/AC Disconnect switch on the GT Inverter.  
To replace the wiring/disconnect box cover:  
1. Ensure the clear plastic insulating barrier is properly positioned in the wiring  
box.  
2. Place the cover in position on the wiring box, being careful not to pinch any  
wires inside.  
3. Ensure that the two screw holes in the bottom of the wiring box cover are  
aligned with the corresponding holes in the bottom of the wiring box.  
4. Replace the two screws removed when the cover was removed (see  
“Accessing the Wiring Terminals” on page 3–5), and tighten securely.  
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Commissioning Multiple Inverters  
Starting up the GT Inverter  
To start up the inverter:  
1. Switch the DC/AC disconnect switch to the ON position (see Figure 4-1).  
2. Check the GT Inverter LCD. The startup screens (see Table 5-1 on page 5–2)  
should appear for five seconds each, and then the “Reconnecting in sss  
seconds” special screen (see Table 5-10 on page 5–10) will appear until the  
305 second (default value) protection timer countdown is completed.  
DC/AC disconnect switch  
Figure 4-1 DC/AC Disconnect Switch Positions  
Commissioning Multiple Inverters  
In an installation with multiple GT Inverters, special commissioning procedures  
must be followed in order to safely determine if any DC wiring problems exist.  
Important: Before performing this procedure, all inverters should be off, with the  
DC/AC disconnect switch in the OFF position.  
To commission multiple inverters:  
1. Uncover the PV arrays and/or close the main DC disconnect switch, if one is  
installed.  
2. Start the first inverter by turning the DC/AC disconnect switch to the ON  
position.  
3. Wait for the input current to rise above 1 A.  
This information is displayed on the Array Readings screen. To display the  
Array Readings screen, tap the unit four times.  
4. After the input current has risen above 1 A, if the inverter is still operating  
normally, switch off the inverter by turning the DC/AC disconnect switch to  
the OFF position. Proceed to step 5.  
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Starting the Inverter  
If the inverter stops operating after the input current has risen above 1 A, turn  
the unit off, remove DC power, and have a certified electrician or technician  
inspect the ground fault protection fuse. If the fuse has blown, a DC wiring  
problem may exist. Check all DC wiring to ensure that the unit is connected to  
a single PV array.  
5. Proceed to the next inverter and perform the same test. See Figure 4-2 for an  
example of the recommended commissioning sequence.  
1
2
3
Figure 4-2 Commissioning Sequence for Multiple Inverters  
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Disconnect Test  
Disconnect Test  
The disconnect test is designed to verify correct operation of the GT Inverter both  
on initial operation and periodically through its life as required by the utilities.  
This test ensures that the Xantrex Grid Tie Solar Inverter does not send electricity  
to the utility grid when the local utility has shut off the grid for repairs, or when  
the utility wiring is damaged.  
When operation of the inverter has been verified and the unit is producing power,  
run the disconnect test as described in this procedure.  
To run the disconnect test:  
1. Switch off the AC circuit for the inverter. This can be accomplished by  
switching the breaker on the main panel that feeds the inverter(s). The  
disconnect for the home or business may be used as well.  
2. Have someone watch the front panel of the inverter to ensure the green light  
on the front of the inverter goes out within two seconds.  
The green light goes out when the AC circuit is switched off, disconnecting  
the inverter from the AC grid. The front panel display will show an AC Fault  
display, indicating that the AC is out of the operating range.  
3. Switch on the AC circuit for the inverter.  
The inverter responds by starting its 305 second protection timer. Ensure that  
the inverter does not produce power before the countdown is over. After  
completing the countdown, the green light turns on and the inverter begins  
delivering power. The display returns to showing the power being produced  
and the total kWh produced to date.  
Important: The default voltage, frequency and reconnect delay values are programmed  
into the unit at the time of shipment from the factory. With the utility’s approval, these  
settings can be adjusted in the field using the GTConfigLite software tool. See  
“Adjustable Voltage, Frequency and Reconnection Settings” on page A–3.  
4. If you have another GT Inverter to commission, switch off the AC circuit for  
the inverter you have just commissioned and tested by switching off the  
breaker on the main panel. You can then run the commissioning procedure  
and disconnect test on the next inverter.  
Locating the Firmware Version Number  
The firmware version number for the protection processor is visible on a screen  
that appears when the unit starts up or is powered up after switching the DC/AC  
disconnect switch to “on.” The screen reads:  
Flash = 03.00  
ROM = 03.00  
The number appearing after “ROM” is the firmware version number for the  
protection processor.  
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Monitoring the  
Inverter  
5
Chapter 5 contains information for understanding the LCD screens and the  
LED indicators.  
Monitoring the Front Panel Display  
During startup  
During startup, the inverter’s front panel LCD (see Figure 5-1) shows the screens  
described in Table 5-1, “Startup Screens on GT Inverter Front Panel Display” on  
page 5–2.  
During waiting  
period  
When the 305 second protection timer begins, the inverter displays “Reconnecting  
in sss seconds” (see Table 5-10, “Special Message Screens” on page 5–10).  
During operation  
When the protection timer stops, the GT Inverter begins delivering power,  
indicated by the power output reading in the display (see Table 5-2, “Normal  
Operation Default Screen” on page 5–4).  
When the inverter is  
offline or there is  
fault condition  
When the GT Inverter is offline (at night, for example) or a fault condition has  
been detected, the LCD shows a message screen to indicate that the inverter is  
offline and to identify the specific fault condition. See Table 5-5, “Offline Mode  
Default Display” on page 5–6 and Table 5-8, “Fault Message Screens” on page  
5–8.  
Tap Xantrex logo for  
Grid Tie Solar Inverter  
backlight and status  
screens  
Figure 5-1 Front Panel LCD  
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Monitoring the Inverter  
Viewing more  
information  
Additional screens of information about the performance of the GT Inverter can be  
displayed by tapping the Xantrex logo on the inverter front panel. This causes the  
LCD to cycle through a series of information screens in Normal Operation,  
Offline or Fault modes. These are described in detail in the following section,  
“Front Panel Display Screens and What They Mean”.  
Front Panel Display Screens and What They Mean  
The front panel display shows different message screens during different modes of  
operation (Startup, Normal, Offline, and Fault). All single units display a basic set  
of message screens; multiple unit systems display additional screens in Normal  
Operation and Offline modes.  
In addition there are Special message screens that may appear in any operational  
mode. All these message screens are described in more detail in the following  
tables.  
Startup Mode  
During startup, the GT Inverter displays several message screens on its front panel  
LCD. These screens appear in the following order (Table 5-1).  
Table 5-1 Startup Screens on GT Inverter Front Panel Display  
Display  
Duration  
Description  
Power 5000W  
5 seconds Startup message 1: Maximum output power and  
Region NA-240V  
Region-nominal output voltage  
Flash = 03.00  
..ROM = 03.00  
5 seconds Startup message 2: Model and revision numbers  
for Flash and ROM memory on the GT Inverter.  
The ROM revision number applies to the  
protection processor.  
Vh=  
261V  
3 seconds Vh: phase-to-phase (rms) high threshold voltage  
setting, the threshold at which the inverter  
disconnects itself from the power grid when  
abnormally high phase-to-phase AC voltage is  
detected.*  
Clr t < 1.00s  
Clr t: clear time.†  
Vl=  
214V  
3 seconds Vl: phase-to-phase (rms) low threshold voltage  
setting, the threshold at which the inverter  
disconnects itself from the power grid when  
abnormally low phase-to-phase AC voltage is  
detected.  
Clr t < 2.00s  
Clr t: clear time.  
5–2  
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Front Panel Display Screens and What They Mean  
Table 5-1 Startup Screens on GT Inverter Front Panel Display  
Display  
Vph= 130V  
Duration  
Description  
3 seconds Vph: phase-to-neutral (rms) high threshold  
voltage setting, the threshold at which the inverter  
disconnects itself from the power grid when  
abnormally high phase-to-neutral AC voltage is  
detected.  
Clr t < 1.00s  
Clr t: clear time.  
Vpl=  
Clr t < 2.00s  
107V  
3 seconds Vpl: phase-to-neutral (rms) low threshold voltage  
setting, the threshold at which the inverter  
disconnects itself from the power grid when  
abnormally low phase-to-neutral AC voltage is  
detected.  
Clr t: clear time.  
Fh= 60.4Hz  
Clr t < 0.16s  
3 seconds Fh: frequency high threshold setting, the threshold  
at which the inverter disconnects itself from the  
power grid when abnormally high frequency is  
detected.  
Clr t: clear time.  
Fl= 59.4Hz  
Clr t < 0.16s  
3 seconds Fl: frequency low threshold setting, the threshold  
at which the inverter disconnects itself from the  
power grid when abnormally low frequency is  
detected.  
Clr t: clear time.  
Reconnect Delay 3 seconds Setting for the reconnect delay for the protection  
305.00s  
timer. After a fault clears for the specified clear  
time, the protection timer starts counting down  
before the inverter attempts to deliver power to the  
grid.  
* The voltage and frequency thresholds, clear times and reconnect delay in  
Table 5-1 can be adjusted for multi-unit installations producing 30 kW or more  
(with the permission of the local utility) using GTConfigLite software.  
† The clear time is the total time to disconnect the output from the grid. It is the  
sum of the debounce time and the hardware delay time. The debounce time is  
the protection processor waiting time before it declares a fault. This delay is  
necessary to avoid nuisance trips. The hardware delay time (100 ms maximum)  
is the time taken by the hardware to disconnect the output from the grid after a  
fault has been declared.  
The protection timer begins counting down the reconnect delay during startup and  
the “Reconnecting in sss seconds” screen appears until the timer countdown is  
complete.  
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Monitoring the Inverter  
Normal Operation Mode  
The LCD on the GT Inverter is refreshed every two seconds, so all readings are  
current to within two seconds. There is a default display available at all times, and  
a series of additional screens that can be displayed by tapping the Xantrex logo  
near the LCD to change the display.  
Normal Operation  
default display  
After the protection timer has completed its countdown and during normal  
operation, the GT Inverter displays the normal operation message screen shown in  
Table 5-2.  
Table 5-2 Normal Operation Default Screen  
Display*  
Description  
System 2000W  
Power being produced by the system now.  
Today 9.875kWh Cumulative energy produced by the system today.  
* all numbers in this and following tables are examples only.  
If there is sufficient energy from the PV array, the default screen is displayed  
continuously while the system is operating normally. In a multiple unit system  
with communications cables properly connected, the power and cumulative  
energy values displayed are for the entire system.  
During low light conditions when the GT Inverter cannot produce any power, the  
Normal Operation default screen flashes alternately (every two seconds) with the  
Insufficient Solar Energy screen (see Table 5-10, “Special Message Screens” on  
page 5–10).  
More screens for all  
systems  
Besides the default normal operation display, more system information messages  
can be viewed.  
To view more Normal Operation information:  
Tap the Xantrex logo near the LCD to advance the display to the next screen.  
Normal operation screens shown in Table 5-3 are displayed in the order given,  
as you tap successively on the unit. They are common to all GT Inverter  
systems, no matter how many units are installed.  
If you continue to tap the unit, then the LCD continues to cycle through all of the  
available normal operation screens. Each screen is displayed for a maximum of  
30 seconds. If you do not tap again during that time period, then the LCD  
backlight turns off and the display reverts to the default system message screen.  
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Front Panel Display Screens and What They Mean  
Table 5-3 Normal Operation Screens for All GT Inverter Units  
Tap  
Display*  
Description  
1st time  
System 2000W  
LCD backlight turns on for better readability  
Today 2.500kWh and default Normal Operation screen is  
displayed.  
2nd time System Lifetime Lifetime energy produced by the GT Inverter  
305kWh  
system.  
3rd time  
Time Online  
Length of time inverter has been online today, in  
Today hh:mm:ss hours (hh), minutes (mm) and seconds (ss).  
4th time Array Readings Immediate DC voltage and current readings  
350.5V 8.4A  
Grid Readings  
from the PV array.  
5th time  
Immediate AC voltage and frequency readings  
242.6V 60.0Hz from the Grid  
* In a multiple unit system with network cables properly installed, the system  
values displayed are for the entire system. For example, in a two-inverter  
system, if inverter #1 is producing 1500 W and inverter #2 is producing  
2000 W, both inverters display a total system power of 3500 W. Time online  
and array readings are for the local inverter and PV array associated with that  
inverter.  
Additional screens  
for multiple units  
In addition to the normal system message screens, additional screens specific to  
each GT Inverter unit can be displayed when the unit is networked to other GT  
Inverters. These screens are only available on multiple unit systems.  
To view unit-specific screens in a multiple unit system:  
1. Tap the Xantrex logo near the LCD to advance the display to the next screen.  
Continue tapping until the final system message screen (“Grid Readings”, in  
Table 5-3 above) is displayed.  
2. Tap again. Normal operation screens shown in Table 5-4 are displayed in the  
order given, as you tap successively on the unit.  
If you continue to tap the unit, then the LCD will cycle through all of the available  
normal operation screens. Each message is displayed for up to 30 seconds. If you  
do not tap again within that time period, then the LCD backlight turns off and the  
display reverts to the default normal operation screen (Table 5-2).  
Table 5-4 Additional Normal Operation Screens for Each GT Inverter Unit in a  
Multiple Unit System  
Tap  
Display  
Description  
6th time  
Unit 1500W  
Power being produced by this unit now.  
Today 1.250kWh Cumulative energy produced by this unit today.  
7th time Unit Lifetime  
Lifetime energy produced by this GT Inverter unit  
150kWh  
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Monitoring the Inverter  
Offline Mode  
Offline default  
display  
At night and when no power is being produced by the PV array (offline mode), the  
GT Inverter displays the screen shown in Table 5-5.  
Table 5-5 Offline Mode Default Display  
Display  
Description  
Inverter  
Offline  
Displayed at all times while the system is offline.  
Offline messages  
for all systems  
Additional message screens can be viewed when the system is offline by tapping  
the Xantrex logo near the LCD. Each additional tap displays the next screen, in  
the order shown in Table 5-6.  
These message screens are common to all GT Inverter systems, no matter how  
many units are installed. If you continue to tap the unit, then the LCD will  
continue to cycle through all of the available offline mode screens.  
Table 5-6 Offline Mode Screens for All GT Inverter Units  
Tap  
Display*  
Description  
1st time  
Inverter  
Offline  
LCD back light turns on for better readability  
and default Offline Mode screen is displayed.  
2nd time  
System 0W  
Today 2.50kWh  
Power being produced by the system now.  
Cumulative energy produced by the system  
today.  
3rd time System Lifetime Lifetime energy produced by the system.  
305kWh  
4th time  
Time Online  
hh:mm:ss  
Total time that the system was online today, in  
hours (hh), minutes (mm) and seconds (ss).  
* In a multiple unit system with communications cables properly installed, the  
system values displayed are for the entire system. Time online is for the local  
inverter.  
Additional Offline  
messages for  
multiple unit  
systems  
Multiple unit systems in offline mode display all of the message screens shown in  
Table 5-6, plus the additional screens shown in Table 5-7. These additional  
screens are displayed following the “Time Online” screen.  
These screens are only displayed on multiple unit GT Inverter systems with  
communications cables installed. If you continue to tap the unit, then the LCD  
continues to cycle through all of the available offline mode screens.  
5–6  
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Front Panel Display Screens and What They Mean  
Table 5-7 Additional Offline Mode Screens for Each GT Inverter Unit in a  
Multiple Unit System  
Tap  
Display  
Description  
5th time  
Unit 0W  
Power being produced by this unit now.  
Today 1.25kWh  
Cumulative energy produced by this unit today.  
6th time  
Unit Lifetime  
150kWh  
Lifetime energy produced by this unit.  
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Monitoring the Inverter  
Fault Mode  
When a fault state is detected, the appropriate fault message appears on the front  
panel display at the next screen refresh (within 2 seconds). The GT Inverter fault  
message screens are shown in Table 5-8.  
Fault Mode causes  
These message screens only appear when there is a fault, and then flash  
alternately with the Inverter Offline default screen (Table 5-5) until the fault is  
corrected.  
Table 5-8 Fault Message Screens  
Display  
Appears When...  
DC Voltage Fault The actual DC voltage is over or under the allowable range,  
145.5V  
240 to 600 Vdc. Self-clearing, no action required.  
The PV array should be configured such that DC voltage  
does not fall below 240 Vdc or rise above 600 Vdc.*  
AC Voltage Fault The actual AC voltage is over or under the allowable range,  
280V  
as specified in “Output” on page A–2.  
This is a utility fault; it will clear itself when the AC voltage  
comes within the specified range.†  
Frequency Fault The actual Frequency is over or under the allowable range, as  
0.0Hz  
specified in “Output” on page A–2. This is a utility fault; it  
will clear itself when the frequency comes within the  
specified range.†  
Over Temp Fault The unit’s internal temperature is greater than 80° C  
81.4C 178.5F  
(176° F), the unit will shut down automatically and only  
restart when the temperature has dropped to less than 70° C  
(158° F).  
Neutral Loss  
Detected  
The GT Inverter is configured for North America, and the  
phase-to-neutral voltage is outside the allowable range.  
Either this is a utility fault or a phase-to-neutral line is not  
connected properly.  
Ground Fault  
Reset System  
A grounding fault is detected. The ground fault fuse will be  
blown. The system must be shut down completely, the fault  
corrected, the fuse replaced (see “Replacing the Ground  
Fault Protection Fuse” on page 6–4) and then the system  
restarted. Troubleshooting a grounding fault should be  
performed by qualified personnel, such as a certified  
electrician or technician.  
Unit Shutdown  
via Remote  
The GT Inverter unit has been shut down via a computer  
connected to the RS-232 port.  
Protection uP  
Not Responding  
The protection microprocessor is not responding.  
5–8  
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Front Panel Display Screens and What They Mean  
* It is normal to receive this fault during low light conditions at dawn or dusk. At  
such times, the array does not have sufficient energy to power the inverter, so  
the PV voltage drops below 240 volts occasionally.  
† Grid fault. When this fault is cleared the protection timer will begin its  
countdown and you will see the “Reconnecting in sss seconds” and “Inverter  
Offline” special screens (see Table 5-10) flashing alternately until the  
countdown is complete.  
Additional Fault  
messages for all  
systems  
Additional message screens can be viewed in fault mode by tapping the Xantrex  
logo near the LCD. Each additional tap displays the next screen in the order  
shown in Table 5-9.  
Table 5-9 Additional Fault Mode Screens  
Tap  
Display*  
Description  
1st time  
Current fault message LCD backlight turns on for better readability.  
screen (see Table 5-8)  
2nd time  
System 0W  
Energy being produced by the system now.  
Today 2.500kWh Cumulative energy produced by the system  
today.  
3rd time System Lifetime Lifetime energy produced by the GT Inverter  
305kWh  
system.  
4th time  
Time Online  
Length of time inverter was online today, in  
Today hh:mm:ss hours (hh), minutes (mm) and seconds (ss).  
5th time Array Readings Immediate DC voltage and current readings of  
350.5V 8.4A  
Grid Readings  
power from the PV array.  
6th time  
Immediate AC voltage and frequency readings  
242.6V 60.0Hz of power from the grid.  
* In a multiple unit system with network cables installed, the system values  
displayed are for the entire system. Time online and array readings are for the  
local inverter and PV array associated with that inverter.  
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Monitoring the Inverter  
Special Screens  
Special message screens are displayed in specific situations that are not  
considered fault situations. They can appear in any mode of operation. These  
screens are described in Table 5-10.  
Table 5-10 Special Message Screens  
Display  
Description  
Reconnecting in Time remaining in seconds (sss) before the GT Inverter  
sss seconds  
reconnects to the grid. This is a protection timer; it runs for  
approximately five minutes at startup and after any grid fault.  
Inverter  
Offline  
GT Inverter switching (or has switched) from Normal  
Operation to Offline mode. This screen may flash alternately  
with a Fault message screen.  
System *3500W  
The “*” in these two screens (see Table 5-2 and Table 5-4)  
Today 15.56kWh indicates that the unit is derating its output power because the  
inverter heat sink temperature is above 75° C (167° F).  
Unit *1800W  
Today 7.82kWh  
The asterisk only appears when the power is actually being  
limited by the inverter.  
Insufficient  
Solar Energy  
Indicates the GT Inverter is not producing power due to  
insufficient solar energy during low light conditions in early  
morning or late afternoon or when the PV array is in shade.  
This screen flashes alternately with the Normal Operation  
default screen.  
Custom Screens  
Two custom screens are available. The inverter does not display them unless they  
are configured using GT-View (see page 3–15). If programmed, the custom  
screens display as the fourth and fifth screens during the startup sequence. They  
can also be viewed by tapping the unit during normal operation and fault mode.  
The first custom screen is intended for the home owner to display information  
such as the name or location of the PV array associated with the inverter.  
The second custom screen is intended for installers, who can configure the screen  
to display, for example, contact information for service.  
5–10  
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Status Indicator Lights  
Status Indicator Lights  
The GT Inverter has two status indicator lights (LEDs) located below the front  
panel LCD (Figure 5-2). These LEDs indicate the inverter’s status (Table 5-11)  
and assist in troubleshooting the performance of the unit.  
Only one indicator light will be lit at any time.  
Table 5-11 Status Indicator LEDs  
LED on  
Means  
GREEN  
GT Inverter is on (DC voltage and AC voltage are qualified and the  
protection timer has finished) and delivering power. No action  
required. Turns off when a fault state is detected.  
RED  
Ground fault condition detected.  
Check for any fault messages on the display (see Table 5-8), and refer  
also to Table 6-1, “Troubleshooting the GT Inverter” on page 6–9 to  
resolve the fault condition.  
Green LED  
Red LED  
Grid Tie Solar Inverter  
Figure 5-2 Status Indicator Lights  
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Maintenance and  
Troubleshooting  
6
Chapter 6 contains information about how to provide general maintenance  
for the Xantrex Grid Tie Solar Inverter. It also provides information about  
troubleshooting the unit.  
The topics in this chapter are organized as follows:  
“Factors Affecting GT Inverter Performance” on page 6–1  
“Performing General Maintenance” on page 6–3  
“Replacing Parts” on page 6–3  
“Identifying Error/Fault Conditions and Solutions” on page 6–9.  
Factors Affecting GT Inverter Performance  
This section describes several factors that will affect the amount of power that a  
properly installed and operating GT Inverter can produce.  
PV Array Factors  
PV array ratings  
PV arrays are rated at ideal factory conditions, such as specified illumination  
(1000 W/m2), spectrum of the light and specified temperature (25 °C / 77 °F),  
which seldom reflect real-world installations. This is called the STC (Standard  
Test Condition) rating and is the figure that appears on the PV module nameplate  
label.  
Expected  
performance  
Because of several unavoidable environmental factors, you can expect your  
PVarray to produce around 60% to 70% of its peak STC-rated output for a  
properly designed and installed PV system on a typical day.  
Temperature and  
reduced output  
PV array temperature affects the output of the entire system. As the temperature  
on the array surface heats up, its energy output goes down. Roof-mounted arrays  
also collect the heat generated by the roof surface (or trapped under the array) and  
will produce less output than pole-mounted arrays, which allow greater air  
circulation behind the panels.  
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Maintenance and Troubleshooting  
Important: The GT Inverter will reduce its energy output to protect its electronic  
circuits from overheating and possible damage in high heat conditions. For maximum  
output in hot climates, mount the GT Inverter in a shaded location with good air flow.  
Angle of the sun  
The angle of the sun in relation to the PV array surface—the array  
orientation—can dramatically affect the PV array output. The array energy output  
will vary depending on the time of day and time of year as the sun’s angle in  
relation to the array changes. Sunlight output decreases as the sun approaches the  
horizons (such as in winter in North America) due to the greater atmospheric air  
mass it must penetrate, reducing both the light intensity that strikes the array’s  
surface and spectrum of the light. In general, you can expect only four to six hours  
of direct sunlight per day.  
Partial shade  
Shading of only a single module of the array will reduce the output of the entire  
system. Such shading can be caused by something as simple as the shadow of a  
utility wire or tree branch on part of the array’s surface. This condition, in effect,  
acts like a weak battery in a flashlight, reducing the total output, even though the  
other batteries are good. However, the output loss is not proportionate to shading.  
The GT Inverter is designed to maximize its energy production in all of the above  
situations using its MPPT algorithm.  
Other Factors  
Other factors that contribute to system losses are:  
Dust or dirt on the array  
Fog or smog  
Mismatched PV array modules, with slight inconsistencies in performance  
from one module to another.  
Inverter efficiency  
Wire losses  
Utility grid voltage.  
For additional information and technical notes concerning PV array performance,  
please visit our Web site at www.xantrex.com.  
6–2  
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Performing General Maintenance  
Performing General Maintenance  
Follow these simple routines to ensure many years of service and optimal  
performance of your solar energy system.  
1. Keep the heat sink clear of dust and debris.  
WARNING: Shock and fire hazard  
Do not use a pressure washer to clean the GT Inverter, or use other cleaning methods that  
could allow water to enter the unit.  
2. Clean the PV array, during the cool part of the day, whenever it is visibly  
dirty.  
3. Periodically inspect the system to make sure that all wiring and supports are  
securely in place.  
4. On a sunny day near noon on March 21 and September 21 of each year,  
review the output of the system and compare with previous year’s reading.  
Maintain a log of system performance readings so that you can recognize  
when system performance becomes inconsistent.  
Replacing Parts  
WARNING: Shock hazard  
There are no user-replaceable parts on the GT Inverter. Do not attempt to service the unit  
yourself.  
See the “Warranty and Return Information” on page WA–1 for information on  
how to get service for your GT Inverter.  
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Maintenance and Troubleshooting  
Replacing the Ground Fault Protection Fuse  
WARNING: Shock and fire hazard  
Fuses should only be replaced by qualified service personnel, such as a certified  
electrician or technician. For continued protection against risk of fire, replace only with  
same type and ratings of fuse.  
WARNING: Shock hazard  
After disconnecting both AC and DC power from the GT Inverter, wait five minutes  
before attempting any maintenance or cleaning or working on any circuits connected to  
the inverter. Internal capacitors remain charged for five minutes after disconnecting all  
sources of power.  
WARNING: Shock hazard  
Dangerous voltages can exist inside the inverter. If there is leakage current from the  
ungrounded conductor to ground at the array, touching the grounded lead could cause a  
life-threatening shock even with the disconnect switch turned off. Ungrounded DC  
current within the inverter presents an extreme shock hazard.  
Cover PV arrays with an opaque material during this procedure.  
When the fuse has blown due to a fault, incorrect handling can be life-threatening. Use  
an insulated fuse puller.  
The ground fault protection fuse will blow when severe leakage occurs between  
the PV array and earth ground, or when the system has been installed with faulty  
wiring. Before replacing the fuse, it is important to have qualified service  
personnel, such as a certified electrician or technician, determine the cause of the  
ground fault.  
To replace a ground fault protection fuse:  
1. Remove the wiring/disconnect box cover, as described on page 3–5.  
2. Remove the display front panel cover (see Figure 6-2), located below the heat  
sink. Use a Phillips screwdriver to remove the two external panhead screws  
and washers and the two screws along the bottom edge of the cover.  
The ground fault protection fuse is located to the left side of the LCD panel  
(see Figure 6-1), and to the left of the DC interconnect board for positive  
grounded units (marked with the “-POS” suffix).  
3. Using an insulated fuse puller, remove the blown fuse and replace it with a  
new AC/DC midget cartridge, rated 600 Vdc, 1A (Littelfuse KLKD 1 or  
equivalent).  
4. Replace the display front panel cover and tighten all four screws securely.  
5. Replace the wiring/disconnect box cover.  
6–4  
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Replacing Parts  
Ground Fault Protection  
Fuse (“-POS” models)  
Ground Fault  
Protection Fuse  
LCD  
Figure 6-1 Location of Fuse, Front Panel Cover Removed  
Figure 6-2 Display Front Panel Assembly  
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Maintenance and Troubleshooting  
Replacing the Inverter  
If your GT Inverter requires servicing, you can replace it with another inverter,  
leaving the existing wiring box in place. This means that you do not have to  
disturb wiring connections in the wiring/disconnect box. However, you do have to  
disconnect wiring between the inverter and the wiring/disconnect box.  
WARNING: Shock hazard  
Replacing the inverter according to these procedures should only be performed by  
qualified service personnel, such as a certified electrician or technician.  
Separating the inverter from the wiring box breaks the ground path between the  
grounded conductor and earth ground. When the wires between the inverter and wiring  
box are disconnected and exposed, both PV leads are floating at the array open circuit  
voltage. If there is leakage current from the POSITIVE PV lead to ground at the array,  
touching the NEGATIVE PV lead could cause a life-threatening shock even with the  
disconnect switch turned off. Ungrounded DC current within the inverter presents an  
extreme shock hazard.  
Cover PV arrays with an opaque material during this procedure.  
Use insulated tools only when disconnecting wires between the inverter and wiring  
box. Cap all disconnected wires with wire nuts.  
Recommended tools:  
Insulated screwdriver  
Wire nuts  
7 mm socket and small ratchet, or 7 mm open wrench.  
WARNING: Shock hazard  
The inverter should only be removed from the wiring box when a replacement inverter is  
immediately available. When replacing an inverter, ensure the DC/AC Disconnect switch  
is locked (or otherwise secured) in the OFF position. Do not leave the top of the wiring  
box exposed for extended periods of time.  
i
WARNING: Shock hazard  
Before replacing the inverter, turn OFF the breaker switches in the main utility service  
panel and the DC/AC Disconnect switch on the GT Inverter. Cover the PV arrays with an  
opaque material.  
To remove the inverter from the wiring box:  
1. Turn OFF the breaker switches in the main utility service panel and the  
DC/AC Disconnect switch on the GT Inverter. Disable the output of the PV  
arrays by covering them with an opaque material.  
2. Remove the wiring/disconnect box cover and the display front panel cover  
(see Figure 3-3 on page 3–5 and Figure 6-2 on page 6–5).  
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Replacing Parts  
3. Using an insulated screwdriver, disconnect the PV NEGATIVE (–) wire from  
the terminal block inside the inverter. Cap the wire immediately with a wire  
nut.  
4. Disconnect the remaining AC, DC and network cables between the inverter  
and the wiring box, inside the inverter. Cap all disconnected AC and DC wires  
with wire nuts.  
5. Inside the inverter, remove the four nuts attaching the wiring box to the  
inverter. See Figure 6-3.  
6. Push the connecting DC and AC wires down inside the wiring box.  
7. Lift the inverter off the mounting bracket, leaving the wiring box in place.  
8. Ensure the gasket on the wiring/disconnect box is clean and undamaged. The  
gasket must create a water-tight seal between the inverter and  
wiring/disconnect box.  
Four nuts to  
secure inverter  
Gasket  
Figure 6-3 Wiring/Disconnect Box and Removable Inverter  
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Maintenance and Troubleshooting  
Back view  
Top mounting hook goes over  
wall-mounted bracket  
Lower flange goes behind  
wiring/disconnect box  
Wiring/ disconnect box  
permanently mounted  
to bracket  
Figure 6-4 Inverter and Wiring/Disconnect Box Sections  
To replace the inverter on the wiring box:  
1. If it has not already been removed, remove the display front panel cover on  
the inverter.  
2. Mount the inverter on the upper mounting bracket above the  
wiring/disconnect box, ensuring that the inverter’s lower flange goes behind  
the wiring/disconnect box. See Figure 6-4.  
3. Pull the connecting DC and AC wires back out of the wiring box and into the  
inverter.  
4. Replace the nuts that connect the inverter and the wiring/disconnect box.  
Tighten each nut alternately to clamp the gasket between the inverter and  
wiring/disconnect box. Secure all nuts tightly.  
5. Remove the wire nut from the PV NEGATIVE (–) wire and reconnect it to the  
terminal block inside the inverter.  
6. Uncap the remaining DC and AC wires and reconnect them to the terminal  
blocks inside the inverter.  
7. Ensure all connections are correctly wired and properly torqued to a  
maximum 16 in-lb (1.8 Nm).  
8. Follow the startup procedure as described on page 4–1.  
6–8  
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Identifying Error/Fault Conditions and Solutions  
Identifying Error/Fault Conditions and Solutions  
Most error or fault conditions will be identified by fault message screens on the  
GT Inverter front panel LCD. These are described in the “Fault Mode” section on  
page 5–8 of this manual. Most of these fault conditions are self-correcting and  
require no user action to remedy.  
See “Front Panel Display Screens and What They Mean” on page 5–2 for more  
information.  
Table 6-1 is intended to assist in determining fault conditions that may require  
user action to remedy.  
Table 6-1 Troubleshooting the GT Inverter  
Problem  
Possible Cause  
Solution  
The inverter’s LEDs and display are DC/AC Disconnect Switch is off.  
blank and the inverter does not  
operate in sufficient sunlight.  
Turn on DC/AC Disconnect Switch  
and breakers in the sequence  
described in “Startup Procedure” on  
page 4–1.  
The display reads “Inverter Offline” Utility service panel breakers are  
Turn on utility panel breakers.  
and “AC Voltage Fault.”  
switched off.  
AC grid voltage is not present or  
incorrect.  
Check AC connections at the  
inverter’s terminals. Ensure AC  
voltage within the range specified in  
“Output” on page A–2 is present.  
The display reads “Inverter Offline” DC breakers are switched off (if  
Turn on any DC breakers and check  
any DC fuses.  
with sufficient sunlight.  
installed), or external DC fuses are  
blown (if installed).  
DC array voltage is not present.  
Check DC connections at the  
inverter’s positive and negative DC  
terminals. Check for incorrectly  
wired PV arrays.  
The display reads “Inverter Offline” DC voltage is present but incorrect. Check DC connections at the  
and “DC Voltage Fault” with  
sufficient sunlight.  
inverter’s positive and negative DC  
terminals. Check for incorrectly  
wired PV arrays. Ensure a voltage  
between 240 and 550 Vdc is present  
at the inverter’s terminals.  
Only the inverter RED LED is  
illuminated and the display reads  
“Ground Fault.”  
Ground fault condition detected on  
the PV array.  
The PV system should be checked  
by a qualified electrician and  
repaired. See Table 5-8 on page 5–8.  
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Specifications  
A
Appendix A contains information about the specifications of the Xantrex  
Grid Tie Solar Inverter.  
The topics in this appendix are organized as follows:  
“Electrical Specifications” on page A–2  
“Output Power Versus Ambient Temperature” on page A–3  
“Efficiency” on page A–4  
“Environmental Specifications” on page A–4  
“User Display” on page A–4  
“Mechanical Specifications” on page A–5  
“Regulatory Approvals” on page A–5  
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Specifications  
Electrical Specifications  
Input  
Input voltage, Maximum Power Point range  
240 to 550 Vdc  
Absolute maximum array open circuit voltage 600 Vdc  
Maximum input current  
22.0 Adc  
Maximum array short circuit current  
Reverse polarity protection  
Ground fault protection  
24 Adc  
Short circuit diode  
GF detection, I  
> 1 A  
DIF  
Output  
Maximum output power  
5000 W AC  
240 V  
Nominal output voltage  
Operating range, utility voltage*  
Nominal output frequency  
Operating range, utility frequency*  
Startup current  
211 to 264 Vac  
60 Hz  
59.3 to 60.5 Hz  
0 Aac  
Maximum continuous output current  
Output overcurrent protection  
Maximum utility backfeed current  
Total Harmonic Distortion  
Power factor  
21 A  
30 A RMS  
0 A  
<5%  
>0.95%  
Utility monitoring— islanding protection  
Output characteristics  
Vac, fac as per UL 1741 (2005)  
Current source  
Output current waveform  
Sine wave  
*
Factory settings can be adjusted with the approval of the utility. This  
unit is provided with adjustable trip limits and may be aggregated  
above 30 kW on a single Point of Common Coupling. See “Adjustable  
Voltage, Frequency and Reconnection Settings” on page A–3.  
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Output Power Versus Ambient Temperature  
Adjustable Voltage, Frequency and Reconnection Settings  
Utility disconnect settings can be adjusted using the GTConfigLite software tool.  
Permission of the utility must be granted before adjusting any of these settings.  
For more information about installing and using GTConfigLite, see the  
GTConfigLite Users Guide (p/n 976-0260-01-01), available on the software CD.  
Setting  
Default Range  
Tolerance  
Phase-to-phase (rms) high threshold voltage  
Phase-to-phase (rms) low threshold voltage  
261.00  
214.00  
261.00–264.00  
±3 V  
204.00–214.00  
130.50–132.00  
102.00–107.10  
60.40–60.60  
57.00–59.80  
1000–2000  
Phase-to-neutral (rms) high threshold voltage 130.50  
±1.5 V  
Phase-to-neutral (rms) low threshold voltage  
Frequency high threshold  
107.10  
60.40  
59.40  
<1000  
<2000  
<160  
±0.1 Hz  
Frequency low threshold  
Voltage (rms) High Clearing Time (ms)  
Voltage (rms) Low Clearing Time (ms)  
Frequency High Clearing Time (ms)  
Frequency Low Clearing Time (ms)  
Reconnect Delay (ms)  
2000–5000  
+0, –0.1 s  
160–200  
<160  
160–300000  
305000 60000–305000 n/a  
Output Power Versus Ambient Temperature  
Once the heat sink on the inverter reaches a maximum temperature limit, the GT  
Inverter reduces its energy output to ensure maximum component ratings are not  
exceeded.  
GT5 Output Power Derating vs Ambient Temperature @ 550VDC  
5000  
4000  
3000  
2000  
1000  
0
25  
30  
35  
40  
45  
50  
55  
60  
65  
70  
Temperature (C)  
Figure A-1 Output Power vs. Ambient Temperature  
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Specifications  
Efficiency  
Maximum efficiency  
CEC efficiency  
96.2%  
95.5%  
1 W  
Night-time tare loss  
GT5- Efficiency vs Output Power  
98.00  
97.00  
96.00  
95.00  
94.00  
93.00  
92.00  
91.00  
90.00  
240  
300  
480  
0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100%  
% of Rated Output Power  
Figure A-2 Typical Efficiency  
Environmental Specifications  
Operating temperature range  
Storage temperature range  
Power derating  
-25° to +65° C (-13° to +149° F)  
-40° to +85° C (-40° to +185° F)  
See Figure A-1 on page A–3  
Tolerable relative humidity limit  
Operating: <95%, non-condensing  
Storage: 100% condensing  
User Display  
Type  
Size  
alphanumeric liquid crystal display with backlight  
2 lines by 16 characters  
A4  
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Mechanical Specifications  
Display Accuracy  
Instantaneous Power  
Voltage  
+/- (30 W + 1% of reading)  
+/- (1% of rating + 1% of reading)  
+/- (1% of rating + 1% of reading)  
+/- 5%  
Current  
System Lifetime energy  
Mechanical Specifications  
Outdoor enclosure  
NEMA 3R, Rainproof  
Inverter dimensions  
(H × W × D)  
28.5 × 15.9 × 5.7 inches (72.4 × 40.3 × 14.5 cm)  
Shipping dimensions  
(H × W × D)  
34.1 × 20.4 × 10.3 inches (86.6 × 51.8 × 26.2 cm)  
Inverter weight  
Shipping weight  
58 lb (26.3 kg)  
76 lb (34.5 kg)  
2
Input and output  
terminals  
AC and DC terminals accept wire sizes of 2.5 to 16 mm  
(#14 to #6 AWG)  
Disconnect switch  
Integrated switch, disconnects both AC and DC  
(meets NEC article 690), rated @ 600 Vdc  
Regulatory Approvals  
The GT Inverter has complete on-board over-current, over-temperature and  
anti-islanding protection, and meets U.S., Canadian and international safety  
operating standards and code requirements:  
UL 1741 1st Edition 2005 Revision – Standard for Inverters, Converters,  
Controllers and Interconnection System Equipment for Use with Distributed  
Energy Resources (Includes IEEE 1547 and 1547.1)  
CSA C22.2 No. 107.1-01 General Use Power Supplies  
IEEE C62.41.2 – IEEE Recommended Practice on the Characterization of  
surges in Low-Voltage AC Power Circuits (Location Category B). Part of UL  
1741-2005. Refer to approval certificate for details.  
Note: This inverter is compliant with IEEE 1547 for those requirements referenced in  
UL1741 (2005), section 46.1.1.:  
A utility interactive inverter and interconnection system equipment (ISE) shall comply  
with the Standard for Interconnecting Distributed Resources With Electric Power  
Systems, IEEE 1547, and the Standard for Cofnformance Test Procedures for Equipment  
Interconnecting Distributed Resources with Electric Power Systems, IEEE 1547.1,  
excluding the requirements for Interconnection Installation Evaluation, Commissioning  
Tests, and Periodic Interconnection Tests.  
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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 Xantrex Grid Tie Solar Inverter. This warranty period lasts  
for five years from the date of purchase at the point of sale to you, the original end user customer. You require proof  
of purchase to make warranty claims.  
This Limited Warranty is transferable to subsequent owners but only for the unexpired portion of the Warranty  
Period. Subsequent owners also require proof of purchase.  
What will Xantrex do? Xantrex will, at its option, repair or replace the defective product free of charge,  
provided that you notify Xantrex of the product defect within the Warranty Period, and provided that Xantrex through  
inspection establishes the existence of such a defect and that it is covered by this Limited Warranty.  
Xantrex will, at its option, use new and/or reconditioned parts in performing warranty repair and building  
replacement products. Xantrex reserves the right to use parts or products of original or improved design in the repair  
or replacement. If Xantrex repairs or replaces a product, its warranty continues for the remaining portion of the  
original Warranty Period or 90 days from the date of the return shipment to the customer, whichever is greater. All  
replaced products and all parts removed from repaired products become the property of Xantrex.  
Xantrex covers both parts and labor necessary to repair the product, and return shipment to the customer via a  
Xantrex-selected non-expedited surface freight within the contiguous United States and Canada. Alaska and Hawaii  
are excluded. Contact Xantrex Customer Service for details on freight policy for return shipments outside of the  
contiguous United States and Canada.  
How do you get service? If your product requires troubleshooting or warranty service, contact your merchant. If  
you are unable to contact your merchant, or the merchant is unable to provide service, contact Xantrex directly at:  
Telephone: 1 800 670 0707 (toll free North America)  
1 360 925 5097 (direct)  
Fax:  
1 360 925 5143 (direct)  
Email:  
Direct returns may be performed according to the Xantrex Return Material Authorization Policy described in your  
product manual. For some products, Xantrex maintains a network of regional Authorized Service Centers. Call  
Xantrex or check our website to see if your product can be repaired at one of these facilities.  
What proof of purchase is required? In any warranty claim, dated proof of purchase must accompany the  
product and the product must not have been disassembled or modified without prior written authorization by Xantrex.  
Proof of purchase may be in any one of the following forms:  
The dated purchase receipt from the original purchase of the product at point of sale to the end user, or  
The dated dealer invoice or purchase receipt showing original equipment manufacturer (OEM) status, or  
The dated invoice or purchase receipt showing the product exchanged under warranty  
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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, DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL  
DAMAGES, LOSSES, COSTS OR EXPENSES HOWEVER ARISING WHETHER IN CONTRACT OR TORT INCLUDING WITHOUT  
RESTRICTION ANY ECONOMIC LOSSES OF ANY KIND, ANY LOSS OR DAMAGE TO PROPERTY, ANY PERSONAL INJURY, ANY  
DAMAGE OR INJURY ARISING FROM OR AS A RESULT OF MISUSE OR ABUSE, OR THE INCORRECT INSTALLATION,  
INTEGRATION OR OPERATION OF THE PRODUCT.  
Exclusions  
If this product is a consumer product, federal law does not allow an exclusion of implied warranties. To the extent you  
are entitled to implied warranties under federal law, to the extent permitted by applicable law they are limited to the  
duration of this Limited Warranty. Some states and provinces do not allow limitations or exclusions on implied  
warranties or on the duration of an implied warranty or on the limitation or exclusion of incidental or consequential  
damages, so the above limitation(s) or exclusion(s) may not apply to you. This Limited Warranty gives you specific  
legal rights. You may have other rights which may vary from state to state or province to province.  
Warning: Limitations On Use  
Please refer to your product manual for limitations on uses of the product.  
SPECIFICALLY, PLEASE NOTE THAT THE XANTREX GRID TIE SOLAR INVERTER 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  
XANTREX GRID TIE SOLAR INVERTER IN CONNECTION WITH LIFE SUPPORT SYSTEMS OR OTHER MEDICAL EQUIPMENT  
OR DEVICES.  
WA2  
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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 in 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 Xantrex Grid Tie Solar Inverter 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 product may be serviced or replaced for a flat fee.  
To return your Xantrex Grid Tie Solar Inverter 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.  
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Warranty and Return  
Information About Your System  
As soon as you open your Xantrex Grid Tie Solar Inverter package, record the following information and be sure to  
keep your proof of purchase.  
Product Number  
Your Model Number  
Serial Number  
864-0118  
___________________________________________________  
___________________________________________________  
___________________________________________________  
___________________________________________________  
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.  
Inverter Details  
Type of installation (e.g. Residential/Commercial)  
Length of time inverter has been installed  
AC wiring size and length  
__________________________________  
__________________________________  
__________________________________  
__________________________________  
__________________________________  
DC wiring size and length  
Description of fault messages and/or indicators on front panel  
_______________________________________________________________________________________  
_______________________________________________________________________________________  
Description of problem  
__________________________________  
_______________________________________________________________________________________  
_______________________________________________________________________________________  
PV Details  
Solar Panel Mount:  
Roof  
Pole  
Ground  
Solar Panel Brand and Model:  
Nominal Voltage Range:  
Peak Open Circuit Voltage:  
Nominal Current Rating:  
Maximum Current Rating:  
Solar Tracker?  
______________ Vdc  
______________ Vdc  
______________ Adc  
______________ Adc  
Yes  
No  
String #1:  
String #2:  
String #3:  
String #4:  
# of Panels: ______________  
# of Panels: ______________  
Series  
Series  
Series  
Series  
Parallel  
Parallel  
Parallel  
Parallel  
# of Panels: ______________  
# of Panels: ______________  
WA4  
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Index  
fuse, location of ground fault protection 6–5  
A
abbreviations and acronyms iv  
AC circuit breaker requirements 3–4  
AC grounding requirements 3–1  
AC output voltage ratings A–2  
AC wiring instructions 3–10  
acceptable wire sizes A–5  
G
general maintenance 6–3  
ground clearance required for installation 2–2, 2–7  
ground fault protection fuse 3–3  
replacing 6–4  
accessing AC and DC terminals 3–5  
adjusting utility disconnect settings A–3  
grounding requirements 3–1  
GT-View 3–15, 5–10  
C
H
checking AC utility voltage 4–2  
checking PV array DC voltage 4–2  
communication between multiple inverters 3–12  
communications cabling 3–13  
installing for inverters in parallel 3–15  
standard CAT 5 wiring 3–14  
Customer Service  
humidity limits A–4  
I
information about your system form WA–4  
installation  
ground clearance 2–2, 2–7  
grounding requirements 3–1  
location concerns 2–2  
mounting 2–7  
options 2–1  
PV array requirements 2–3  
inverter  
features and options 1–2  
removing from wiring box 6–6  
serial number WA–4  
preparing to call WA–4  
D
DC wiring instructions 3–7  
derating chart A–3  
dimensions A–5  
display accuracy A–5  
E
efficiency chart A–4  
electrical specifications A–2  
enclosure type A–5  
error messages and solutions 6–9  
L
LEDs, See status LEDs  
M
maintenance, general 6–3  
maximum power point tracking, See MPPT  
mechanical specifications A–5  
messages, See front panel display  
model number WA–4  
MPPT  
operational window 2–3  
technology 1–2  
multiple inverters  
F
fault conditions and solutions 6–9  
FCC information to the user viii  
features and options 1–2  
front panel display 1–2, 5–1  
fault messages 5–8  
normal operation messages 5–4  
offline mode messages 5–6  
reading messages 5–2  
special messages 5–10  
startup messages 5–2  
AC and DC wiring 3–11  
communication between 3–12  
communications wiring 3–15  
975-0320-01-01  
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Index  
configuration 2–1  
messages in normal operation 5–5  
messages in offline mode 5–6  
start the inverter 4–3  
status LEDs  
description 5–11  
do not illuminate 6–9  
red LED is on 6–9  
O
operation  
T
factors affecting performance 6–1  
inverter startup 4–3  
temperature  
messages at startup 5–2  
reassembling the unit 4–2  
startup procedure 4–1  
affecting PV array performance 6–1  
range for locating inverter 2–2  
terminal blocks in wiring box 3–6  
terminators, male network 3–13  
thermal derating chart A–3  
torque values for wires 3–7  
troubleshooting the inverter 6–9  
P
parallel configuration  
communication between inverters 3–12  
communications wiring 3–15  
power derating A–4  
proof of purchase WA–4  
purchase date WA–4  
U
utility disconnect settings 5–3, A–3  
PV arrays  
angle of the sun 6–2  
W
warranty  
checking DC voltage 4–2  
effect of shade on performance 6–2  
factory ratings 6–1  
temperature affecting performance 6–1  
types of modules 2–3  
voltage requirements 2–3  
out of warranty service WA–3  
terms and conditions WA–1  
weight A–5  
wiring  
acceptable wire sizes A–5  
PV array to Xantrex GT Inverter 3–7  
torquing 3–7  
wire sizes 3–4  
wiring box  
R
RJ45 ports  
communication between inverters 3–13  
location in wiring box 3–6  
RS-232 port 3–13, 3–15, 5–8  
description 1–3  
removing the cover 3–5  
removing the inverter from 6–6  
RJ45 connectors 3–6  
terminal block location 3–6  
S
safety instructions vii  
serial number WA–4  
specifications  
X
Xanbus technology 3–12  
Xantrex web site v  
electrical A–2  
mechanical A–5  
standard features and options 1–2  
standard test condition 6–1  
startup procedure  
check PV array DC voltage 4–2  
check utility AC voltage 4–2  
monitor front panel display 5–1  
overview 4–1  
replace wiring box cover 4–2  
IX2  
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Xantrex Technology Inc.  
1 800 670 0707 Tel toll free NA  
1 360 925 5097 Tel direct  
1 360 925 5143 Fax direct  
customerservice@xantrex.com  
975-0320-01-01  
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