Contents - Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- IMPORTANT SAFETY INSTRUCTIONS
- SPECIAL NOTICES
- PERSONAL PRECAUTIONS
- INTRODUCTION
- UNIT IDENTIFICATION
- CONTROLS, INDICATORS AND COMPONENTS
- Figure 4, AC Side
- Figure 5, Internal Components and Indicators
- Figure 7, DC Side
- INSTALLATION
- QUICK INSTALL
- COMPLETE INSTALL
- Figure 8, Air Flow Intake Location
- Figure 9, AC Input/Output Power Connection
- Figure 10, Warning Label
- Table 2, Minimum Recommended Battery Cable Size vs. Cable Length
- Table 3, Battery Cable To Maximum Breaker/Fuse Size
- Figure 11, Battery to Inverter Cable Connection
- Figure 12, Neutral-To-Ground Bond Switching: No External AC Source Connected
- Figure 13, Neutral-To-Ground Bond Switching: External AC Source Connected
- Figure 15, Multiple Point Ground System
- FUNCTIONAL TEST
- MENU SYSTEM
- USER MENU MAP
- SETUP MENU MAP
- USER MENU
- SETUP MENU
- OPERATION
- Figure 18, Trace™ SW Series Inverter Output Waveform
- POWER VS. EFFICIENCY
- INVERTER CAPACITY VS TEMPERATURE
- OPERATING MODES
- INVERTER MODE
- CHARGER MODE
- Figure 22, BTS (Battery Temperature Sensor)
- Table 4, Charging Setpoints For Common Battery Types
- INVERTER/CHARGER MODE
- GENERATOR SUPPORT MODE
- AUTOMATIC GENERATOR CONTROL MODE
- Figure 23, Two Wire Start Wiring Diagram
- Figure 24, Three Wire Start Wiring Diagram (HONDA Type)
- Figure 26, Relay RY7 and RY8 Sequence
- UTILITY BACKUP MODE
- UTILITY INTERACTIVE MODE
- Figure 28, Selling Power Stored In The Batteries; Hypothetical Time Of Day Operational History
- Figure 29, Utility Interactive Line-Tie System With Battery Backup Flow Diagram
- Figure 30, Overvoltage Protection for Battery
- ENERGY MANAGEMENT MODE
- PEAK LOAD SHAVING MODE
- LOW BATTERY TRANSFER (LBX) MODE
- USING MULTIPLE INVERTERS
- TECHNICAL INFORMATION
- BATTERY SIZING
- BATTERY BANK SIZING
- BATTERY CARE AND MAINTENANCE
- Table 7, Battery State of Charge Voltage
- BATTERY INSTALLATION
- BATTERY HOOK-UP CONFIGURATIONS
- Figure 33, Parallel Configuration: 12-Volt Battery Wiring
- Figure 34, Series-Parallel Configuration: 6-Volt Battery Wiring
- BATTERY CABLE INDUCTANCE
- APPLICATIONS
- TROUBLESHOOTING GUIDE
- INVERTER/CHARGER TERMINOLOGY
- Figure 36, AC Waveforms
- SPECIFICATIONS AND FEATURES (60 Hz Models)
- SPECIFICATIONS AND FEATURES (50 Hz Models)
- DIMENSIONS
- INSTALLATION DIAGRAMS
- Figure 39, Installation Diagram, 240 VAC, 3 Wire, Grid Connected, Generator Backup
- USER SETTINGS WORKSHEETS
- APPENDIX
- OTHER PRODUCTS
- REFERENCE TABLES AND GRAPHS
- Figure 40, AWG Wire Size
- Table 13, Recommended Minimum AC Wire Sizes (75 C)
- STORAGE CHECKLIST
- WARRANTY/REPAIR INFORMATION
- WARRANTY OR REPAIR SERVICE REQUIRED
- INDEX
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CONTROLS, INDICATORS AND COMPONENTSPage12 2001 Xantrex Technology, Inc.5916 - 195th Street N. E.Arlington, WA 98223Telephone: 360/435-8826Fax: 360/435-2229www.traceengineering.comSW Series Inverter/ChargerPart No. 2031-5Rev. C: February 2001AC SIDEFigure 4 shows the components located on the AC side of the inverter. The removable AC Access Panelscover and protect the Internal Components and Indicators, such as the AC Terminal Block, BTSConnection, LED status indicators (for the AC1 and Gen Control relays) and the Aux and Gen Controlrelay terminals. Refer to the INSTALLATION section beginning on page 15, for all wiring connections.Figure 4, AC SideREMOTE PORTThe SW Series Inverter/Charger can be controlled remotely from the unit by plugging in a Sine waveRemote Control (SWRC) or Sine wave Communications Adapter (SWCA).The SWRC remote control is a full function, programmable remote control with backlit LCD whichduplicates the functions of the integral Control Panel.The SWCA serial communications interface adapter allows for remote setup, adjustment, monitoring andtroubleshooting of SW Series Inverter/Chargers from a personal computer and allows modem accessmonitoring over long distances.See the APPENDIX, OPTIONS section, starting on page 128, for a complete description of the SWRCRemote Control and SWCA Serial Communications Adapter.STACKING PORTThe stacking port allows multiple SW Series Inverter/Chargers to be used in the same system. Theinverters can be used in a “SERIES” configuration to operate 240 Vac loads and to connect to120/240 Vac power systems. A series stacking interface cable (SWI) is required to connect the seriesstacking ports of the inverters. This port is also used to connect two units in a “PARALLEL” configuration.The parallel stacking interface cable (SWI/PAR) allows two inverters to be connected to provide twice thecontinuous and surge capability at the same AC voltage. See the USING MULTIPLE INVERTERS sectionon page 95 for more information.INVERTER/CHARGER CIRCUIT BREAKERThis circuit breaker protects the unit’s internal wiring while the unit is inverting or charging. It is not usedfor the pass-through current. This is not a branch-circuit rated breaker, separate output breakers arerequired. Press the breaker to reset (to reset on 48-volt units, move the breaker handle to the ONposition).RemotePortStackingPortInverter/ChargerCircuit BreakerKnockouts(Also On Side}ThreeRemovableAccess Panel(One Panel onSide)IdentificationLabel
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