User’s Manual PROsine 2.
PROsine 2.
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.
About This Manual Purpose The purpose of this User’s Manual is to provide explanations and procedures for installing, operating, maintaining, and troubleshooting the PROsine 2.0 Inverter/ Charger. Scope The Manual provides safety guidelines, detailed planning and setup information, procedures for installing the inverter, as well as information about operating and troubleshooting the unit. It does not provide details about particular brands of batteries.
About This Manual Specifications: Appendix A contains specifications and performance graphs for the PROsine and the display panel. System Diagrams: Appendix B illustrates typical designs for PROsine customdesigned systems. Charging Algorithms: Appendix C provides information about the charging algorithms for PROsine 2.0.
About This Manual Conventions Used The following conventions are used in this guide. WARNING Warnings identify conditions or practices that could result in personal injury or loss of life CAUTION Cautions identify conditions or practices that could result in damage to the unit or other equipment. Important: These notes describe things which are important for you to know, but not as serious as a caution or warning. Abbreviations and Acronyms
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Important Safety Instructions WARNING This chapter contains important safety and operating instructions. Read and keep this User’s Manual for future reference. WARNING:Limitations on use The PROsine 2.0 Inverter/Charger is not intended for use in connection with life support systems or other medical equipment or devices. 1. Before installing and using the PROsine 2.
Safety Explosive gas precautions WARNING: Explosion hazard 1. Working in the vicinity of lead-acid batteries is dangerous. Batteries generate explosive gases during normal operation. Therefore, you must read this guide and follow the instructions exactly before installing or using your PROsine. 2. This equipment contains components which tend to produce arcs or sparks.
Safety 9. If battery acid contacts skin or clothing, wash immediately with soap and water. If acid enters your eye, immediately flood it with running cold water for at least twenty minutes and get medical attention immediately. 10. If you need to remove a battery, always remove the ground terminal from the battery first. Make sure all accessories are off so you don’t cause a spark.
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Contents Important Safety Instructions - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - vii 1 Introduction Your PROsine- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–2 The Heart of a Sophisticated, Independent Power System - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–3 Inverting - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Contents Step 4: Connecting the AC Input Wires - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -3–11 General AC Wiring Considerations - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -3–11 AC Input Connections - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -3–12 Step 5: Configuring the Output Neutral Bonding System - - - - - - - - - - - - - - - - - - - - - - - - - - -3–13 AC Output Neutral-to-Ground Bonding Syst
Contents 5 Operation Part 1: System Startup Check - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5–2 Part 2: Operating Considerations - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5–3 Fan Operation - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5–3 ON/OFF/REMote Control of PROsine Operation - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5–3 Hystere
Contents Installing a Series System - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 7–5 Connecting AC Input Wiring - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 7–5 Connecting AC Output Wiring - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 7–6 Configuring the Inverter Output Neutral Bonding - - - - - - - - - - - - - - - - - - - - - - - - - - - 7–6 Connecting the DC Cables - - - - - - - - - - -
Figures Figure 1-1 Figure 2-1 Figure 2-2 Figure 2-3 Figure 2-4 Figure 2-5 Figure 2-6 Figure 3-1 Figure 3-2 Figure 3-3 Figure 3-4 Figure 3-5 Figure 3-6 Figure 3-7 Figure 3-8 Figure 3-9 Figure 3-10 Figure 3-11 Figure 3-12 Figure 7-1 Figure A-1 Figure B-1 Figure B-2 PROsine Materials as Shipped- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–8 AC End View (Blank Panel Option)- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2–2 Panel Equipped With GFCI an
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Tables Table 1-1 Table 3-1 Table 3-2 Table 3-3 Table 3-4 Table 4-1 Table 5-1 Table 6-1 Table 6-2 Table 6-3 Table 6-4 Table 6-5 Table C-1 Table C-2 PROsine Default Values- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1–9 Required AC Wire Size vs Breaker Rating - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–6 Required DC Cable and Fuse Size - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3–7 Tested GFCI Models - - - - - - - -
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1 Introduction Chapter 1 introduces you to the PROsine, explains the inverting, changing and power system management functions
Introduction Your PROsine Congratulations on your purchase of the PROsine 2.0 Inverter/Charger (PROsine) As part of the PROsine Inverter/Charger family, the PROsine 2.0 gives you quality power, worry-free operation, and outstanding reliability. Its integrated inverting–charging functions and numerous power management features make it ideal for marine installations, recreational and commercial vehicles, and residential back-up systems.
The Heart of a Sophisticated, Independent Power System The Heart of a Sophisticated, Independent Power System Your PROsine has been designed to be the heart of a sophisticated, independent power system. While the PROsine is an extremely “friendly” product to operate, Xantrex wants to ensure that you get the best performance from your system. So please take a few minutes to read the next few pages: they’ll give you an excellent understanding of the PROsine’s features and capabilities.
Introduction Remote Shutdown Naturally, when you are not using the PROsine, you will disable the inverter to conserve your battery. The PROsine still draws up to 50mA of battery current, however—and this will eventually discharge the battery. So when you don’t need the PROsine for an extended period of time, you can reduce battery draw to less than 1mA by setting the PROsine’s ON/OFF/REM switch to OFF. This disables all circuitry in the PROsine and removes all power from the display panel.
The Heart of a Sophisticated, Independent Power System Power System Management As we pointed out at the beginning of this introduction, the PROsine is designed to be the heart of your power system. In addition to refined charging and inverting functions, the PROsine is the control center for managing your power system.
Introduction Auto Restart After Errors The PROsine protects itself against numerous conditions (e.g. AC overload or over temperature) by shutting down. You can program the PROsine to restart automatically when the cause of the shutdown has corrected itself. . Important: Auto Restart After Errors is factory-set to OFF since this feature can cause the PROsine to start unexpectedly and supply AC.
Materials List Important: p DC Wiring Enclosure For residential installations, some installation codes may require a wiring enclosure for DC connections and cables. (Installation procedures are shipped with the DC Wiring Enclosure.) p Crimp-On Ring Terminals (for DC Wiring Enclosure) If you are using the DC Wiring Enclosure, you should use crimp-on ring terminals on the PROsine end of your DC cables.
Introduction PROsine 2.0 Inverter•Charger DC terminal covers Battery temperature sensor Display panel Use l nua Ma r’s Communications cable User’s Manual Quick Installation Guide Quick Reference Card ABYC Warning Label Figure 1-1 PROsine Materials as Shipped Important:: For Marine Installations For marine installations, you must attach the ABYC Warning label in a conspicuous location on the AC load panel. The Warning label is supplied with your PROsine and is illustrated below.
Default Values for the PROsine System Default Values for the PROsine System Table 1-1 lists the default settings for the PROsine system. Record your settings in the right-hand column after you have configured the PROsine. This information will be valuable if you need to reconfigure your system or call Xantrex Customer Service Table 1-1 PROsine Default Values Item Default Value Your Settings NOTE At a minimum, configure the items marked with a ** after installation.
Introduction Table 1-1 PROsine Default Values Item Default Value Your Settings Adjustable From the Configure Battery Menu NOTE Settings below are for Battery Type = Generic Gel. Battery Size 200Ah Default Battery Temperature Warm Battery Type Generic Gel Battery Temp. Coefficient –27mV/°C Bulk Mode Settings: • Max Voltage • Max Current (%C) • Threshold Voltage • Threshold Timeout • • • • 14.2V 25% 13.
2 Product Orientation Chapter 2 will familiarize you with the following components of a PROsine system: • PROsine features. (Start on page 2–2.) • Display panel features. (Start on page 2–6.) • Battery temperature sensor. (See page 2–12.
Product Orientation PROsine Features AC End g DISPLAY BATTERY TEMP SYNC Temperature h i f e d c Figure 2-1 AC End View (Blank Panel Option) 2–2 Feature Description 1 ON/OFF/REM Switch: ON: Normal operation according to the way the unit has been configured via the display panel. OFF: The inverter and charger are off; shorepower is not passed through to the loads. The unit draws the lowest battery current possible (less than 2mA).
PROsine Features AC Panel Options The PROsine has two AC panel options, each of which includes one 30A hardwire output circuit: • • Blank access panel: one hardwire output circuit. See Figure 2-1. Panel equipped with 15A GFCI receptacle and one hardwire output circuit. See Figure 2-2.
Product Orientation DC End c d e h g f B Figure 2-3 DC End 2–4 Feature Description 1 Positive DC cabling terminal, 8 mm stud 2 Negative DC cabling terminal, 8 mm stud 3 Cooling fan. (For details, see “Fan Operation” on page 5–3.) 4 Screw holes for mounting accessory modules 5 Chassis ground lug. Provides a ground path for the PROsine chassis to the DC system ground. 6 Screw holes for mounting the optional DC wiring enclosure.
PROsine Features DC Terminal Covers Two covers—red for positive and black for negative—are supplied to prevent accidental contact with the cabling connectors after installation.
Product Orientation Display Panel Features The display panel lets you monitor and control the PROsine system. For convenience, the liquid crystal display (LCD) is backlit and the panel can be configured so an audible tone alerts you to any warnings or system faults that occur. The panel’s features are described below.
Display Panel Features DISPLAY Mode Switch 445-0089-01-01 Switch Position Description ON Puts the unit in Display mode. Data Display screens are shown so you can monitor system performance. OFF Power continues to be available to the panel so vital data like system errors and warning statuses can be checked. CONFIGURE Puts the inverter in Configure mode. Configuration screens are available, and you can configure the system without turning on the inverter and charger functions.
Product Orientation INVERTER Switch This switch is active in all Display modes: ON, OFF, CONFIGURE. Switch Position Description ENABLE The inverter is enabled and will run if there is no shorepower. (NOTE: Throughout this manual, the term “shorepower” refers to AC input power from a utility grid, generator, or other source.) DISABLE When the AC power does not meet configuration parameters (i.e. is “bad”), the inverter is off and will consume minimal power.
Display Panel Features CHARGER Switch This switch is active in all Display modes: ON, OFF, CONFIGURE. Switch Position Description ENABLE The charger is enabled and will charge the battery according to the way the unit is configured if shorepower is “good.” DISABLE The charger is off and will consume minimal power. CHARGER LEDs The LEDs are continuously updated whenever the Display Mode switch is set to ON or CONFIGURE.
Product Orientation LCD Panel The LCD panel lets you monitor the PROsine system and change its configuration settings. It operates in two basic modes: Data Display and Configuration. Data Display Mode • In Data Display mode the screens provide information about PROsine system performance. • You can cycle through them by pressing the Up s and Down t Menu buttons. (In Data Display mode, the other buttons have no function.
Display Panel Features Menu Navigation and Data Selection Buttons When the DISPLAY switch is set to CONFIGURE, the menu navigation and data selection buttons operate as follows: Press This Button s ESCAPE MENU Up s MENU Down To • • Cancel changes made to data Back up one menu level Back up one menu item Proceed to next menu item s DATA Up Increase data value or cycle through available options DATA Down Decrease data value or cycle through available options s s ENTER Save changes or proceed
Product Orientation Battery Temperature Sensor The temperature sensor continuously measures the temperature of the battery and adjusts charger output for a more accurate, temperature-compensated charge. c d e f Figure 2-6 Battery Temperature Sensor Feature Description 1 Mounting plate. Connects to the negative battery terminal. 2 Sensor. Reverse side has peel-off backing and self-adhesive strip so you can attach the sensor to the side of the battery case. 3 Sensor cable (25ft; 8m). 4 Connector.
3 Installation Chapter 3 This section gives complete information for installing a PROsine system. Specifically, this section describes: • Safety instructions and installation codes that must be observed during installation • Installation tools and materials • Appropriate locations and environments for mounting the PROsine, display panel, and battery temperature sensor • AC cabling, DC cabling, and grounding information • Detailed installation procedures on page 3–3.
Installation Safety Instructions WARNING: Shock hazard Xantrex Technology recommends that all wiring be done by a certified technician or electrician to ensure adherence to approved electrical wiring regulations. • • Before you begin the installation, review the “Important Safety Instructions” on “Important Safety Instructions” on page vii, and read the entire “Installation” section so you can plan your installation from beginning to end.
Safety Instructions Installation Tools and Materials You will need the following to install the PROsine, display panel, and battery temperature sensor: p Wire stripper p Mounting screws or bolts p #2 Phillips screwdriver p Wrench for DC terminals (1/2 inch or 13mm or adjustable) p AC cable (i.e.
Installation Step 1: Designing the Installation All types of PROsine installations share common components, and these are briefly described below. Figure 3-1 shows these components and their relationship to each other in a typical recreational vehicle or fleet vehicle installation. (For diagrams of typical residential backup and marine systems as well as series installations, see Appendix B, “System Diagrams”.
Step 1: Designing the Installation AC shorepower A source of 120 volt, 60Hz alternating current is needed to provide energy for charging batteries and to pass through to AC loads. This source could be the utility grid (power company) or an AC generator. An automatic or manual AC source selector switch can be used to connect one of the multiple sources of shorepower to the PROsine system.
Installation AC Distribution Panels Most systems incorporate distribution centers both ahead of the PROsine (the AC source panel) and between the PROsine and the loads (the AC load panel). A source panel includes a main circuit breaker, which serves as over-current protection and as a disconnect for the AC shorepower supply line. Additional circuit breakers serve individual circuits, one of which serves the PROsine.
Step 1: Designing the Installation DC Cabling This includes all the cables and connectors between the batteries, the DC disconnect and over-current protection device, and the PROsine. All installations require multi-strand insulated cables as well as disconnect and over-current devices. DC cable sizes are indicated by AWG notation or MCM notation. Under the AWG standard, a larger gauge number indicates a smaller wire diameter. Under the MCM standard, a larger number indicates a larger cable.
Installation Installations in marine and recreational vehicles may require GFCI protection of branch circuits connected to the AC output of the PROsine. In addition, electrical codes require GFCI protection of certain receptacles in residential installations. While the true sine wave output of the PROsine is equivalent to the waveform provided by utilities, compliance with UL standards requires that Xantrex test and recommend specific GFCIs.
Step 2: Choosing a Location for the PROsine Step 2: Choosing a Location for the PROsine WARNING: Fire and explosion hazard This equipment contains components that tend to produce arcs or sparks. To prevent fire or explosion, do not install the PROsine in compartments containing batteries or flammable materials or in locations that require ignition-protected equipment.
Installation Step 3: Mounting the PROsine To mount the PROsine: 1. Remove the PROsine from its shipping container, verify that all components are present, and record relevant product information on “Information About Your System” on page WA–4. 2. Turn off the ON/OFF/REM switch on the AC end. 3. Select an appropriate mounting location and orientation. (See Figure 3-2.
Step 4: Connecting the AC Input Wires Step 4: Connecting the AC Input Wires WARNING: Fire, Shock and Energy hazards Make sure wiring is disconnected from all electrical sources before handling. All wiring must be done in accordance with local and national electrical wiring codes. Do not connect the output terminals of the PROsine to any incoming AC source.
Installation AC Input Connections Figure 3-4 is a cutaway top view of the PROsine wiring compartment. It shows one incoming AC cable and its connections to the PROsine wires. To make the AC input connections: 1. Run 10AWG 2-conductor-plus-ground cable through one of the cable clamps on the AC end. 2. Strip about two inches of the jacket from the AC cable and separate the three wires. 3. Connect the incoming black and white (line and neutral) wires to the PROsine AC input black and white wires. 4.
Step 5: Configuring the Output Neutral Bonding System Step 5: Configuring the Output Neutral Bonding System AC Output Neutral-to-Ground Bonding System The PROsine provides an installer-defeatable system that automatically connects the neutral conductor of the inverter AC output circuit to safety ground (“bonding” it) during inverter operation, and disconnects it (“un-bonding” it) when the PROsine has connected to AC shorepower.
Installation The PROsine is shipped with the screw in the position that enables the automatic bonding system. • • To disable the system, move the screw to the other hole. Do not remove the screw from the product: make sure it is always installed in one position or the other, as appropriate for the configuration of the rest of the system.
Step 6: Connecting the AC Output Wires Step 6: Connecting the AC Output Wires Two options are available for AC output wiring: • • Hardwire output. Single hardwire output plus GFCI receptacle. Connections for Hardwire Option To make the AC output wiring connections 1. Run 10AWG 2-conductor-plus-ground cable through one of the cable clamps on the AC end. 2. Strip about two inches of the jacket from the AC cable and separate the three wires.
Installation Connections for Single Hardwire Output With GFCI Figure 3-6 is a cutaway top view of the PROsine wiring compartment showing one set of outgoing AC wires with the GFCI option. To make the AC output wiring connections 1. Run 10AWG 2-conductor-plus-ground through one of the cable clamps on the AC end. 2. Strip about two inches of the jacket from the AC cable and separate the wires. Strip insulation from each of the wires according to the guidelines given by the connector manufacturer. 3.
Step 7: Connecting the DC Cables Step 7: Connecting the DC Cables CAUTION Before making the final DC connection, check cable polarity at both the battery and the PROsine. Positive must be connected to positive; negative must be connected to negative. Reversing the positive and negative battery cables will damage the PROsine and void your warranty. This type of damage is easily detected. WARNING: Fire hazard Use only copper wire rated 75°C minimum.
Installation To make the DC connections Refer to Figure 3-8. 1. Cut the cables to the correct length with enough insulation stripped off so you can properly install the type of terminals you will be using. The terminals on the DC end are designed to fit up to 500MCM crimp-on ring terminals (either AMP or ILSCO) or box connectors. 2. Attach the connectors to both cables. If you are using crimp connectors, use the tool recommended by the terminal manufacturer.
Step 7: Connecting the DC Cables Figure 3-8 DC Cable Connections DC Grounding To connect the DC ground: The Chassis Ground lug on the DC end of the PROsine is used to connect the chassis of the PROsine to your system’s DC grounding point as required by regulations for some installations. Use copper wire that is either bare or provided with green insulation. Do not use the DC Ground Lug for your AC grounding. (See the AC wiring instructions in this section.
Installation Step 8: Mounting the Display Panel The communications cable supplied with the display panel is 70 feet long (21 meters). If you want to replace the cable with one that is longer or shorter, use a high quality, 6-wire telephone extension cable. You can install the panel up to 100 feet (30 meters) away from the PROsine. Flush mounting the panel on a wall, bulkhead, or panel requires an opening that is approximately 4 inches x 4 inches (10cm x 10cm).
Step 9: Connecting the Battery Temperature Sensor Step 9: Connecting the Battery Temperature Sensor Mounting Options You can mount the battery temperature sensor (BTS) in one of two ways: • • Mounting the sensor to the negative battery post allows the internal battery temperature to be sensed and provides the most accurate results. Attaching the sensor to the side of the battery using the self-adhesive backing also provides good results in most situations.
Installation 1. Decide which battery is to be monitored. When all battery banks are located in the same compartment, select the battery that requires the most frequent charging (in a boat or an RV, this is usually the “house” battery). Where a battery is located in a separate compartment from other batteries, and where temperatures are constantly high (as in an engine room), it is a good idea to monitor this battery to keep it from being overcharged as a result of its constant high temperature.
Step 9: Connecting the Battery Temperature Sensor Mounting to the Side of the Battery Case To mount the sensor on the battery case See Figure 3-10. Adhesive backing allows for easy mounting on side of battery. Figure 3-10 BTS Attached to Battery Case 1. Select the battery to be monitored (see step 1 in the preceding procedure). 2. Select a side suitable for attaching the sensor. The surface where the sensor is to be mounted must be flat and free from reinforcing ribs or other raised features.
Installation Step 10: Connecting the Remote Shutdown WARNING: Shock hazard This step should only be completed by qualified installers or technicians who have a knowledge of DC circuits. Connect only to an isolated Class 2 extra-low voltage power source as described below. Some installations may require remote shutdown capability. This feature enables you disable all circuitry in the PROsine and remove all power from the display panel using a remote shutdown switch (e.g. the ignition switch in a vehicle).
Step 10: Connecting the Remote Shutdown Plug into Battery Temp jack on PROsine 1:2 phone line splitter Battery Temperature Sensor cable RS+ 10 feet max. 100 feet max. 26AWG, 4-conductor telephone cable Do not use. RS– Top view of cable and connector RS+ NOTE: The retaining clip is on the opposite side of the connector. Do not use. RS– Figure 3-11 Cabling Details for Remote Shutdown Feature ** Do not connect to these wires; they are used for the Battery Temperature Sensor.
Installation 3–26 445-0089-01-01
4 Configuration Chapter 4 explains how to configure the PROsine to best meet your electrical system requirements. It is divided into three parts: • General Configuration Information on page 4–2. Tells you how to enter Configure mode and Installer mode, how to scroll through the configuration screens, and how to change configuration settings. • Configuration Screens on page 4–4. Shows how the configuration menus and screens are organized. • Configuration Options on page 4–6.
Configuration Part 1: General Configuration Information All changes to the operation of the PROsine are made via the display panel. The unit must be in Configure mode or Installer-Only mode before you can change system settings. It is essential that you understand the implications of changing User and Installer settings. Be sure to study Chapter 3, “Installation” before you configure your system. Procedures for changing modes and values are given below.
Part 1: General Configuration Information Changing Settings Important: All configuration settings are stored in the PROsine’s memory and will not be lost even if all power is disconnected. To change system settings: 1. Set the DISPLAY switch to CONFIGURE. 2. Press Up s MENU or Down t MENU to display the menu you want. 3. Press ENTER once, and then press Up s MENU or Down t MENU until the menu item you want appears. 4. Press Up s DATA or Down t DATA until the value you want appears. 5.
Configuration Resetting to Factory Defaults To reset the PROsine to the factory defaults: 1. Disable Invert and Charge mode. 2. Set the DISPLAY switch to CONFIGURE. 3. Press Down t MENU until Configure PROsine—Advanced Menu appears. 4. Press the ENTER button once. 5. Press Down t MENU until Reset to Dflts appears. 6. Press the ENTER button once. 7. Hold down the ESCAPE and DATA Down t buttons for 3–4 seconds to enter Installer mode. 8. Press Down t DATA or Up s DATA until Load Factory appears. 9.
Part 2: Configuration Menus and Screens Table 4-1 Menu Structure—Overview Configure PROsine—Basic Configure PROsine—Advanced Configure Display Panel Configure Battery Diagnostics AC Breaker Size Load Sensing Equalize Load Sensing Load Sense Power Load Sense Interval Low AC Transfer (V) Low AC Transfer (Hz) High AC Transfer (V) High AC Transfer (Hz) AC Series Mode Inverter Low V Shutdown Inverter Low V Warning Inverter Low V Restart Hysteresis Run Without Panel Inverter After Reset Without Panel Charg
Configuration Part 3: Configuration Options This section gives you information about the options on each configuration menu. Refer to this section when you are changing system settings. The information in this section is arranged as follows: • • Each configuration menu is identified by a heading (e.g. Configure PROsine—Basic Menu). The heading is followed by a two-column table that gives you a “thumb nail” overview of the menu. • The left column lists the items on this menu.
Part 3: Configuration Options Configure PROsine—Basic Menu Menu Items Access AC Breaker Size User Load Sensing User Equalize User Menu Choices or Information Displayed AC Breaker Size Set the AC breaker size to match the shorepower circuit breaker size to reduce circuit breaker “nuisance” tripping. Values range from 0–30 amps. Load Sensing Select Enabled if you want the unit to only turn on when a load is present.
Configuration Configure PROsine—Advanced Menu Menu Display Menu Items Access Load Sensing User Load Sense Power User Load Sense Interval User Low AC Transfer (V) User Low AC Transfer (Hz) User High AC Transfr (V) High AC Transfer (V) User High AC Transfr (Hz) High AC Transfer (Hz) User AC Series Mode Installer Inverter Low V Shutdown User Inverter Low V Warning User Inverter Low V Restart Hysteresis User Run Without Panel User Inverter After Reset (Without Panel) User Charger
Part 3: Configuration Options Low AC Transfer (V) This is the voltage below which the unit will no longer recognize AC as “good”, will open the relay, and will attempt to transfer to Invert mode if Invert is Enabled. The range of values is 85–110Vac. Low AC Transfer (Hz) This the frequency at which the unit will no longer recognize AC as “good” and will attempt to transfer to Invert mode. The range is 40–59Hz.
Configuration Auto Restart After Error WARNING: Shock hazard If Auto Restart is selected, AC voltage can reappear at the loads without notice after a fault has occurred and cleared. If you select Yes, the PROsine will attempt to restart (five attempts) after a fault has occurred. If you select No, the PROsine ceases operation when an error occurs. It then requires that you manually restart the unit by going to the Configuration menu and clearing the error.
Part 3: Configuration Options Configure Display Panel Menu Menu Items Access Audible Alarm User LCD Backlight Mode User LCD Backlight Brightness User LCD Backlight Timeout User Temperature (C/F) User Menu Choices or Information Displayed This menu lets you change display panel settings to suit your preferences and environment. Audible Alarm Select All Faults if you want a beeper to alert you to each Warning and Error that occurs. If you prefer, choose Errors Only.
Configuration Configure Battery Menu Menu Display (if different from Menu Item) Dflt Batt Temp Menu Items Access Battery Size Installer Default Batt Temp User Battery Type Installer View / Change Battery Details: Batt Temp Coeff Mode Settings: Bulk Charge • Bulk - Maximum Voltage • Bulk - Maximum Current (%C)a • Bulk - Threshold Voltage • Bulk - Threshold Timeout View / Change Battery Details: Battery Temp.
Part 3: Configuration Options Menu Choices or Information Displayed WARNING: Risk of Fire or Explosion Incorrect settings can damage or destroy your batteries. When making any battery configuration settings, ensure that the values are correct according to the battery manufacturer’s specifications. Settings should be changed by qualified personnel only. The Configure Battery menu lets you read (as a user) and change (installer-only) settings associated with the battery system.
Configuration Bulk Charge Mode Settings • • • Absorption Mode Settings • • • • Overcharge Mode Settings • • • Float Mode Settings • • • • 4–14 Max Voltage This is the maximum available charging voltage for the Bulk charging stage. Max Current (%C) The maximum available charging current (in A) as a percentage of battery capacity (in Ah) for the Bulk charging stage.
Part 3: Configuration Options Equalize Mode Settings • • • • Constant Mode Settings • • • Charger Mode Max Voltage This is the maximum available charging voltage for the Equalize charging stage. Max Current (%C) This is the maximum available charging current (in A) as % of battery capacity in (Ah) for the Equalize charging stage. Max Timeout This is the maximum amount of time that the unit will stay in Equalize stage.
Configuration Charger Type Choose one of the three charger types listed below. For information about multistage charging, see Application Note: Battery Banks for Inverter Systems (9760114-01-01). p 3-step The PROsine will perform the Bulk, Absorption/Overcharge, and Float steps p 2-step The PROsine will only perform the Bulk, Absorption/Overcharge, and Standby steps. Some battery manufacturers and users believe that batteries should not be Float charged.
Part 3: Configuration Options Diagnostics Menu Menu Items Access PS System Mode Read-Only View Last 20 PROsine Faults • PROsine Fault #0 • — • PROsine Fault #19 Read-Only Clear PROsine Fault Log User View Last 10 Panel Faults • Panel Fault #0 • — • Panel Fault #9 Read-Only AC Bad Cause Read-Only View Software Versions: • LVP Software Revision • HVP Software Revision • Display Software Revision • Display EEPROM Revision Read-Only View System Temperatures: • Panel ambient temp • Unit Temp #1 •
Configuration View Last 10 Panel Faults The display panel records the last ten faults that have occurred in the display panel. You can view these for diagnostic and troubleshooting purposes. See “Display Panel Faults” on page 6–9. AC Bad Cause If the input AC is not acceptable according to the configuration values you set, this screen indicates why: causes included low frequency, low voltage, etc. For a complete list of causes, see “AC Bad Causes” on page 6–3.
5 Operation Chapter 5 begins with a system startup check that you carry out after installation and configuration to verify that the PROsine is operating correctly. The chapter also provides information that will guide you during routine, ongoing operations. For your convenience, the information is divided into four parts: • System Startup Check on page 5–2. • Operating Considerations on page 5–3. • Operation in Inverter Mode on page 5–5. • Operation in Charger Mode on page 5–7.
Operation Part 1: System Startup Check WARNING Review the “Important Safety Instructions” on page vii before operating the PROsine. To test the charging and inverting functions: 1. Close the battery disconnect and turn on the PROsine’s ON/OFF/REM switch. 2. To test the inverter, set the INVERTER switch to ENABLE and disconnect the AC input source breaker. 3. Place a load on the inverter (e.g. plug a light into an outlet that the inverter is powering) and make sure it works.
Part 2: Operating Considerations Part 2: Operating Considerations Fan Operation The internal cooling fan operates for a number of conditions: • One of the internal operating temperatures is greater than 55°C. Important: This temperature may be caused by heat in the PROsine or by high ambient temperature. • The fan will continue to run until one minute after the temperature drops to 45°C.
Operation Without this hysteresis the PROsine might continually transfer between invert and charge mode as the shorepower voltage goes up and down a small amount. This concept is applied to the following: • • Invert Low Voltage Shutdown Hysteresis: 2.5V, if the unit stopped inverting due to low battery voltage, it will not restart until the battery voltage has increased to 2.5V above the Invert Low Voltage Shutdown level.
Part 3: Operation in Inverter Mode Part 3: Operation in Inverter Mode WARNING Review the “Important Safety Instructions” on page vii before operating the PROsine. Once the PROsine is installed, you can operate it in Inverter mode. To operate in Inverter mode: 1. Place PROsine’s ON/OFF/REM switch in the ON position. 2. Set the INVERTER switch to ENABLE. 3. If AC is present, the STANDBY LED will come on. If AC is present, remove it and the inverter will come on.
Operation you have problems starting certain loads, ensure that the battery connections are solid, the DC cabling is short and of sufficient size, the AC wiring is of sufficient size, and the battery is of sufficient capacity and is fully charged. As with all inverters, the amount of continuous power that the PROsine can deliver without overheating is limited by the ambient air temperature.
Part 4: Operation in Charger Mode Part 4: Operation in Charger Mode WARNING: Explosion hazard Review the “Important Safety Instructions” on page vii before operating the PROsine. During charging, batteries may generate explosive gasses. Thoroughly ventilate the area around the batteries and ensure that there are no sources of flames or sparks in the vicinity. Study all battery manufacturer’s precautions such as removing or not removing cell caps while charging and recommended rates of charge.
Operation Important: If carried out too frequently or done improperly, equalization can damage your batteries. Never equalize a battery more than necessary. Always check electrolyte level before AND after equalization. Fill with distilled water only. Monitor electrolyte specific gravity (S.G.) throughout the equalization phase. Follow the battery manufacturer’s recommendations for equalizing your batteries. 10 provides some background on different batteries.
Part 4: Operation in Charger Mode WARNING: Fire hazard In this situation it is very important to check the electrolyte level and S.G. in each cell at least once per hour. The charger should be turned off and the batteries allowed to rest a few minutes to do this check as the electrolyte will be bubbling if the charger is active. If further equalization is needed the equalize cycle may be restarted. 5. During equalization, measure the S.G. When all cells have an S.G. of approximately 1.
Operation Part 5: Display Mode Screens When the DISPLAY switch is ON, you can view the screens shown below. (The values shown here are examples only.) Display Mode screens are updated continuously to show current PROsine operating data. You can scroll through them by pressing the Up s and Down t MENU buttons. Important: In the screens below current polarity is indicated as follows: + indicates current going into the battery (i.e. + indicates charging). – indicates current coming out of the battery (i.e.
6 Troubleshooting Chapter 6 describes how to troubleshoot the PROsine This section is divided the following parts: • General Troubleshooting Guidelines on page 6–2. • Shutdown / Restart Without Error Message on page 6–3. • AC Bad Causes on page 6–3. • Warning Messages on page 6–4. • Error Messages on page 6–6. • Display Panel Faults on page 6–9. • Inverter Applications (Loads) on page 6–11.
Troubleshooting General Troubleshooting Guidelines WARNING: Shock and Energy hazard Do not disassemble the PROsine. It does not contain any user-serviceable parts. Attempting to service the unit yourself could result in an electrical shock or burn. Important: If you need to obtain service, see page WA–1. Before you call Xantrex Customer Service, record the information that is asked for in “Information About Your System” on page WA–4.
General Troubleshooting Guidelines Shutdown / Restart Without Error Message While inverting, the PROsine could shut down for a few seconds and then restart inverting without reporting an error. This has likely been caused by a reset of the internal microprocessor, which was probably caused by a discharged and/or weak battery. In particular, this may occur when the battery is weak and the unit is starting loads which demand a high surge (e.g. air compressor, air conditioner, fridge).
Troubleshooting Warning Messages Warning messages appear on the display panel LCD to alert you to an impending system change. Warnings do not affect operation. • • • You can retrieve the previous twenty Warning and/or Error messages by placing the unit in Configure mode and then selecting View Last 20 PROsine Faults from the Diagnostics menu. Warnings end with the characters -W (e.g. Batt too hot -W). To clear a Warning message, press the ESCAPE key. If the audible alarm is enabled, press ESCAPE twice.
Warning Messages Table 6-2 Warning Messages Warning Message Details Inv Hi Bat V -W High battery voltage, invert mode. Chg Hi Bat V -W Battery voltage exceeds 15.5V in charge mode. AC In Rev Pol -W Input AC line and neutral wiring polarity is reserved. Check to see that the Line side of the AC source (shorepower) has a voltage to ground and the neutral side does not. May also occur if the shorepower neutral is floating (not connected to earth) The unit will continue to operate.
Troubleshooting Error Messages Error messages indicate that there has been a change in system operation due to a detected condition. • • • You can retrieve the previous twenty Error messages by placing the unit in Configure mode and then selecting View Last 20 PROsine Faults from the Diagnostics menu. To clear an Error message, press the ESCAPE key. If the audible alarm is enabled, press ESCAPE twice. The first key press deactivates the alarm and the second removes the message from the screen.
Error Messages Table 6-3 Error Messages Error Message Details Action Invert Hi Bat V Inverter battery voltage greater than 16V. Check for external charging sources and disable if necessary. AC Out Overload AC output overload. Reduce the AC load so that even for short times, the AC output current does not exceed 26A. Ext Comm Timeout PROsine external communications timeout Check that the connections on the communications cable between the PROsine and the display panel are secure.
Troubleshooting Table 6-3 Error Messages Error Message Details Action Chg Bad AC Qlty In Charger or Bypass mode the PROsine is being powered from an incompatible AC source, probably a very low quality generator. The PROsine is compatible with virtually all nominal 120V 60Hz AC sources (including Modified Sine Wave) but it is possible that a very low quality source may cause a problem in some operating conditions.
Display Panel Faults Display Panel Faults A message is displayed for any fault that is detected in the display panel. If a Panel Fault message appears, you can clear it from the screen by pressing any button on the panel. Since this type of fault does not trigger a shutdown, operation of the system after the error occurs depends on the type of fault and the setup of the system.
Troubleshooting Unexplained Faults Sometimes the PROsine may not show a fault at the panel, but may be acting in an unexplained way. Table 6-5 Unexplained Faults Error Details Shorepower is present but the PROsine will not transfer The voltage or frequency of the shorepower is not within the transfer limits configure in the PROsine under the Configure PROsine — Advanced menu. To view the shorepower quality set the DISPLAY switch to ON and select the AC In screen.
Inverter Applications Table 6-5 Unexplained Faults Error Details Unexpected behaviours It is possible to cause the PROsine to behave in an unexpected fashion by configuring it incorrectly.
Troubleshooting freewheel when power is removed (e.g. a grinder). This long transfer may cause computers or other sensitive equipment to operate incorrectly. If power glitches must be minimized then Xantrex recommends that motor loads not be operated when the sensitive equipment is being used. Problem Loads Very Small Loads If the power consumed by a device is less than the threshold of the Load Sense mode circuitry, the device will not run.
7 Series Operation Chapter 7 provides information about installing and operating two PROsines in series: • Designing a series system on page 7–2. • Installing a series system on page 7–5. • Configuring a series system on page 7–9. • Series system startup test on page 7–10. • Series system operation on page 7–11.
Series Operation Designing a Series System System Overview Series operation refers to a specific wiring configuration that allows you to connect two PROsines in a way that produces two 120V phases which are synchronized to produce 240V. This is commonly referred to as a “120/240Vac split-phase” supply or “240V single-phase with a center-tap neutral” and is the same as the utility connection to most houses. This series system can power both 120Vac and 240Vac single-phase loads.
Designing a Series System DC Fuse / disconnect or circuit breaker *Ground *Ground Battery 1 DC Fuse / disconnect or circuit breaker Battery 2 Solid lines: 2 bank system Dashed lines: add crosstie jumpers to create a single bank system. *Ground Connect these points to the system ground electrode.
Series Operation AC Input The AC input (shorepower) supply to the system must be a 120/240Vac splitphase system that provides two line conductors (referred to as L1 and L2), a neutral, and ground. Each PROsine requires a line, neutral, and ground run to it, so 2-conductor-plus-ground cable is needed with a 30A max circuit breaker installed in the line conductor.
Installing a Series System Installing a Series System WARNING Xantrex Technology recommends that all wiring be completed by a certified technician or electrician to ensure adherence to approved electrical wiring regulations. WARNING: Fire, Shock, and Energy hazard Make sure wiring is disconnected from all electrical sources before you handle. All wiring must be done in accordance with local and national electrical wiring codes.
Series Operation Connecting AC Output Wiring To connect each PROsine to the load panel: 1. Connect 2-conductor-plus-ground cable to the Line 1 PROsine’s AC Output line and neutral conductors, and connect the cable’s ground wire to one of the output ground screws on the PROsine. 2. Run the 2-conductor-plus-ground cable to the load panel and connect: • • • The Line 1 conductor to the panel’s Line 1 input breaker The neutral to the panel’s neutral bus The ground to the panel’s ground bus 3.
Installing a Series System CAUTION Before making the final DC connection, check cable polarity at both the battery and the PROsine. Positive must be connected to positive; negative must be connected to negative. Reversing the positive and negative battery cables will damage the PROsine and void your warranty. This type of damage is easily detected. The system can be run from a single battery bank or from two separate banks.
Series Operation WARNING: Explosion hazard If the charger has been operating, wait ten minutes for any explosive battery gases to dissipate. • • • Single Bank: If your system has a single bank, install both sensors on the battery (or batteries) which will be the hottest. Two Separate Banks: If your system has two separate battery banks, connect one sensor to either PROsine and then to the battery it is charging; connect the second sensor to the second PROsine and then to the battery it is charging.
Configuring a Series System Configuring a Series System Configure each PROsine through its display panel. Refer to “Part 2: Configuration Menus and Screens” on page 4–4 for an overview of configuration options. Refer to “Part 3: Configuration Options” on page 4–6 for specific configuration items. To configure the series system 1. Set up the usual parameters (battery size and type, AC transfer conditions, etc.) and make sure both PROsines are configured the same. 2.
Series Operation Series System Startup Test To test the system’s inverting and charging functions 1. Apply DC to both PROsines by closing the battery disconnect(s). Remove AC by opening the AC input source breaker. On both PROsines, set the ON/OFF/ REM switch to On. 2. Set the INVERTER switch on one display to ENABLE. The INVERTER STANDBY LED on that display should light. 3. Enable the inverter on the second display. The INVERTING LED on both displays should light. 4.
Series System Operation Series System Operation Invert Mode The two PROsines will operate strictly as a pair in Invert mode. Before each cycle of AC output, the two units confer over the sync cable to verify that the other unit has no errors and is ready to put out the next cycle. A number of conditions must be met for the pair of PROsines to invert: • • • • Invert mode must be enabled on both displays. No errors can be present in either unit. The sync cable must be good.
Series Operation 7–12 445-0089-01-01
A Specifications Appendix A contains specifications and performance graphs for the PROsine and the display panel. Specifications subject to change without notice.
Specifications Electrical Specifications: Invert Mode DC Input Operating voltage range 10.0V–16.0V Safe non-operating voltage range 0–18Vdc Nominal current at full load 200A AC Output Output voltage 117Vac Continuous power 2.0kW, 2.0kVA to 40°C max. ambient Surge power 4.5kW for 5s Max short-circuit current 55Arms, 55Apk Frequency 60.0Hz ±0.05% Wave shape Sine THD (over load range of 0–2.0kW resistive) ≤2% Power derating above 40°C ambient temp See “Invert Power Derating vs.
Electrical Specifications: Charge Mode Electrical Specifications: Charge Mode AC Input Operating voltage range 90–135Vac Nominal current 15Aac at 100A charge, 120Vac in Power factor (100A charge, 120Vac in) ≥0.98 on sine input Nominal frequency 60Hz DC Output Nominal voltage 12.0Vdc Min battery voltage for charging 0.0Vdc Max output voltage 17.5Vdc Nominal output current 100A @ ≤15.0Vdc Equalize mode max current ≥10A @ ≤17.
Specifications Environmental Specifications Ambient Temperature: Operating Temperature Range Storage Temperature Range –20–60ºC, with output derated above 40°C –40–70ºC Humidity: Operation/Storage 5–95% RH, non-condensing Transfer relay rating 30A, 1.5hp Transfer time 16ms Transfer on bad voltage 85–110V for low AC and 120–135 for high AC, user-adjustable. Transfer on bad frequency 40–70Hz user-adjustable for high and low frequency limits.
Inverter Overload Operation Inverter Overload Operation This graph shows how long the PROsine will operate for given output current. Time to Shutdown vs. Current 10000.00 Unit shuts dow n sooner for higher internal heatsink temperature. 1000.00 Time (s) 100.00 10.00 T<60°C 6080°C 0.10 0.
Specifications Invert Power Derating vs. Ambient Temperature If the unit is in elevated ambient temperature above 40°C, you are required to reduce power draw according to the following chart to maintain regulatory compliance and to avoid over-temperature shutdown. Rated Continuous Output Power (W) Inverter Output Power vs.
445-0089-01-01 5 3/4” (146mm) 1 1/2” (38mm) 4 3/8” (111mm) 7 3/16” (183mm) 17 3/4” (450mm) (450mm (17.
A–8
B System Diagrams Appendix B illustrates typical designs for PROsine custom-designed systems. • Residential backup. (See page B–2.) • Marine installations. (See page B–3.) For a typical RV or Fleet Vehicle installation, see Figure 3-1 on page 3–4.
System Diagrams Residential Backup System Figure B-1 illustrates a typical residential backup system with the following features: 1. AC power supplied by a utility system 2. DC power supplied by a battery bank and protected by a DC fuse in the positive cable 3. An AC source panel that includes a Max 30A circuit breaker that supplies the PROsine 4. An AC load panel with branch circuit breakers that supply only loads that run off the PROsine 5.
Marine System Marine System Figure B-2 illustrates a typical marine system with the following components: 1. AC power supplied from a shorepower connector 2. An AC source panel that includes a Max 30A circuit breaker that supplies the PROsine 3. An AC load panel with branch circuit breakers that supply only loads that run off the PROsine 4. Engine negative bus or DC ground bus 5. DC power supplied by a battery bank and protected by a DC fuse in the positive cable 6. Battery isolator 7. DC alternator 8.
B–4
C Charging Algorithms Appendix C provides information about the charging algorithms for PROsine 2.0. • Charge Algorithms. (See page C–2.) • Battery Type—Charge Algorithm Guide. (See page C–3.
Charging Algorithms Charge Algorithms Table C-1 summarizes the voltage and current setpoints for the charging algorithms. These voltage setpoints are applied for a battery temperature of 20°C. To determine the voltage setpoints at other temperatures, apply the temperature coefficient as follows: VT TC × ( T X – 20° ) = V 20° + -----------------------------------------1000 X For example, generic gel float voltage at 50° will be mV – 27 --------- × ( 50° – 20° ) °C V 50° = 13.
Battery Type—Charge Algorithm Guide Battery Type—Charge Algorithm Guide Use the information in Table C-2 to match your battery type with the appropriate Charge Algorithm and Charger Type. Different battery manufacturers suggest different battery charging algorithms. The following information has been provided to Xantrex by the associated battery manufacturer. This list is provided as a reference only. It is highly recommended that you confirm the actual charging algorithm with your battery manufacturer.
Charging Algorithms Table C-2 Battery Type – Charge Algorithm Guide Johnson Controls Flooded - Starting/Deep Cycle 12 3 Step Keystone Solid Energy (Flooded) 16 3 Step Keystone Solid Energy (Gel) 15 3 Step Metra Electronic - Tsunami, Normal 19 3 Step Optima Blue Top 19 3 Step Optima Red Top 19 3 Step Optima Yellow Top 19 3 Step Rolls Deep Cycle by Surrette 18 3 Step Sears Canada, Marine by Delco 17 3 Step 5 3 Step Sears USA, by Johnson Controls, Flooded Deep Cycle/Starting 13
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 PROsine 2.0 Inverter/Charger. This warranty period lasts for 2 years (24 months) from the date of purchase at the point of sale to you, the original end user customer. You require proof of purchase to make warranty claims.
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.
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.
Warranty and Return Information About Your System As soon as you open your PROsine 2.0 Inverter/Charger package, record the following information and be sure to keep your proof of purchase.
Index A Abbreviations and Acronyms v ABYC compliance A–4 ABYC Warning label 1–8, B–3 AC Bad Cause 4–18, 6–3 AC Breaker Size 3–6, 4–5, 4–7 AC cabling 3–6 AC circuit breaker 3–5 AC disconnect devices 3–5 AC distribution center. See AC source panel and AC load panel.
Index general configuration information 4–2 how to change settings 4–3 minimum settings after installation 1–9, 4–5 overview of menu structure 4–5 series systems 7–9 Configuration mode 2–10 Configure Battery menu 4–12 Configure Display Panel menu 4–11 Configure mode, entering 4–2 Configure PROsine—Advanced menu 4–8 Configure PROsine—Basic menu 4–7 continuous power 1–3 crimp-on splices, in marine installations 3–11 CSA/NRTL A–4 current sensing shunt 7–7 Customer Service contacting WA–1 preparing to call WA–4
Index frozen batteries 6–4 fuse sizes AC 3–5 DC 3–7 G gases, battery precautions 5–7, 7–8 venting 3–22 generators 3–5 GFCI 2–3, 3–7, 3–16 GFCI models, tested 3–8 I incandescent lights 6–12 induction motors 6–11 Information about Your System form WA–4 input voltage range 5–6 installation battery temperature sensor 3–21 choosing a location 3–9 codes 3–2 connecting AC input wires 3–11 connecting AC output wires 3–15 connecting DC cables 3–17 connecting remote shutdown 3–24 designing an installation 3–4 mater
Index Menu Up button 2–11 menus Configure Battery 4–12 Configure Display Panel 4–11 Configure PROsine—Advanced 4–8 Configure PROsine—Basic 4–7 Diagnostics 4–17 navigating 2–11 selecting data 2–11 microwave 1–2 motor loads 6–11 motors capacitor start 6–11 induction 6–11 universal 6–11 mounting environment 3–9 mounting flanges 2–2 multi-stage charging 1–2 multi-wire branch circuit 3–6 N neutral to ground bonding in series installations 7–6 procedure 3–13 O Q Quick Installation Guide v Quick Reference Guide
Index running current 6–11 RV system, illustrated 3–4 S safety instructions viii search mode. See Load Sensing mode.
Index warranty out of warranty service WA–3 terms and conditions WA–1 wire sizes, AC 3–6 wiring enclosure, DC 3–3, 3–18 wiring, separation of AC and DC 3–11 X Xantrex web site v IX–6 445-0089-01-01
Xantrex Technology Inc. 1 800 670 0707 Tel toll free NA 1 360 925 5097 Tel direct 1 800 994 7828 Fax toll free NA 1 360 925 5143 Fax direct customerservice@xantrex.com www.xantrex.
