liebert aps - dtiemersnrep.com.mxdtiemersnrep.com.mx/pdfs/network-power/ups-de-red/liebert...
TRANSCRIPT
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TABLE OF CONTENTS
IMPORTANT SAFETY INSTRUCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1
SAVE THESE INSTRUCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1
GLOSSARY OF SYMBOLS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
1.0 PRODUCT INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
1.1 System Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.2 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
1.3 Operating Principle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
1.4 Operating Modes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
1.5 Major Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
1.5.1 UPS Frame . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
1.5.2 User Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
1.5.3 System Control Module and System Monitor Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
1.5.4 Power Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
1.5.5 Battery Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
1.5.6 Charger Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
1.5.7 External Battery Cabinet (EBC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
2.0 INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
2.1 Unpacking Inspection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
2.1.1 Installation Environment. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
2.1.2 Installation Tools . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
2.1.3 Installation Site . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
2.2 Unloading the UPS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
2.3 Mechanical Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
2.3.1 Tower Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
2.3.2 Rack Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
2.4 Module Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
2.4.1 Installing Power Module, Battery Module and Charger Module. . . . . . . . . . . . . . . . . . . . . . . 22
2.4.2 Install System Control and System Monitor Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
2.5 Cable Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
2.5.1 Transformer-Free UPS Cable Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
2.5.2 Transformer-Based UPS Cable Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
2.5.3 Transformer-Free UPS—Dual Inverter Frames. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
2.5.4 Connecting External Battery Cabinet. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
2.5.5 Connecting Integrated Power Output Distribution (POD) . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
2.5.6 Commissioning/Startup Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
3.0 COMMUNICATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .38
3.1 Liebert IntelliSlot Ports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
3.2 Dry Contact Ports. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
3.3 REPO (Remote Emergency Power Off) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
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3.4 Long Run Time (LRT) Battery Temperature Probe Terminals . . . . . . . . . . . . . . . . . . . . . . . 41
3.5 USB Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
3.6 Liebert MultiLink®. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
3.7 LCD Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
4.0 OPERATION AND DISPLAY PANEL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .43
4.1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
4.2 LCD Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
4.2.1 Startup Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
4.2.2 Main Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
4.2.3 Default Screen/Screen Saver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
4.3 LCD Screen Views . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
4.3.1 AC Mains Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
4.3.2 Battery Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
4.3.3 Output Screen. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
4.3.4 Load Screen. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
4.3.5 UPS Information Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
4.3.6 Redundancy Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53
4.3.7 Settings Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54
4.4 Entering a Password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54
4.5 Setting or Changing a Parameter Setting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
4.5.1 Battery Setting Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
4.5.2 Language Selection Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
4.5.3 Alarms Screen. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
4.5.4 Records Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
4.5.5 Module Replacement Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58
4.5.6 Prompt Window . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58
5.0 TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .60
5.1 Active Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60
5.2 Module Troubleshooting. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63
5.3 Module Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
5.3.1 Removing Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
5.3.2 Replacing the User Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66
6.0 MAINTENANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .67
6.1 Proper Care. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67
6.2 Scheduled Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67
6.3 Cleaning Fan Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67
6.3.1 Top Filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67
6.3.2 Bezel Filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68
6.3.3 Bottom Fan Filter—Transformer-Based Frames Only . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68
7.0 SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .69
7.1 Estimated Battery Run Times. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72
7.1.1 Tables for UPS Where Model Number Digits 1-3 are AS1 or ASA . . . . . . . . . . . . . . . . . . . . . 72
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7.2 Estimated Battery Run Times. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77
7.2.1 Tables for UPS Model Number Where Digits 1-3 are AS2 or ASB . . . . . . . . . . . . . . . . . . . . . 77
7.3 Estimated Battery Run Times. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
7.3.1 Tables for UPS model number digits 1-3 are AS3 or ASC . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
7.4 Estimated Battery Run Times. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85
7.4.1 Tables for UPS Model Number Where Digits 1-3 are AS4 or ASD . . . . . . . . . . . . . . . . . . . . . 85
7.5 Estimated Battery Run Times. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89
7.5.1 Tables for UPS Model Number Where Digits 1-3 are AS5 or ASE . . . . . . . . . . . . . . . . . . . . . 89
7.6 Estimated Battery Run Times. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93
7.6.1 Tables for UPS Model Number Where Digits 1-3 are AS6 or ASF . . . . . . . . . . . . . . . . . . . . . 93
FIGURESFigure 1 16-bay transformer-free UPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Figure 2 10-bay transformer-free UPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Figure 3 12-bay transformer-based UPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Figure 4 16-bay transformer-based UPS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Figure 5 Operating principle diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Figure 6 UPS frames, bezels removed . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11Figure 7 User interface module. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Figure 8 Liebert APS system control module and the system monitor module . . . . . . . . . . . . . . . . . . . . . . 12Figure 9 Liebert APS power module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Figure 10 Battery module appearance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Figure 11 Appearance of the charger module. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14Figure 12 External battery cabinet. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14Figure 13 Front and rear installation clearances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Figure 14 Remove the mounting brackets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16Figure 15 Connect the ramp and remove UPS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16Figure 16 Adjust the leveling feet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17Figure 17 Installation position and drilling hole dimensions for stationary mounting. . . . . . . . . . . . . . . . . 17Figure 18 Install cage nuts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18Figure 19 Install the tray . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18Figure 20 Install the guide rails . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19Figure 21 Install the brackets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19Figure 22 Push the UPS frame into the rack . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20Figure 23 Fix the UPS frame . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20Figure 24 Install the metal plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21Figure 25 Installation completed . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21Figure 26 Insert the power module, battery module and charger module . . . . . . . . . . . . . . . . . . . . . . . . . . . 22Figure 27 Lever and fastener . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23Figure 28 Remove large plastic bezel and user interface module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23Figure 29 Insert the System Control and System Monitor module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24Figure 30 Lever and fastener on System Control and System Monitor Module . . . . . . . . . . . . . . . . . . . . . . 24Figure 31 Knockouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26Figure 32 Connection in single-phase input. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26Figure 33 Connection in 3-phase input. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27Figure 34 Setting bypass voltage jumper (default: 208VAC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29Figure 35 Setting bypass voltage jumper (200/220/230/240VAC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29Figure 36 Configuring the neutral/earth jumper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
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Figure 37 Knockouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30Figure 38 Connection method . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31Figure 39 Knockouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32Figure 40 Secure cables on cable bridges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33Figure 41 Wiring connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33Figure 42 Connecting external battery cabinet to a transformer-free UPS . . . . . . . . . . . . . . . . . . . . . . . . . . 34Figure 43 Connecting external battery cabinet (transformer-based UPS) . . . . . . . . . . . . . . . . . . . . . . . . . . . 35Figure 44 Battery screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35Figure 45 Liebert IntelliSlot communication port location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38Figure 46 Pin layout of the dry contacts. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39Figure 47 REPO connector pin layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40Figure 48 REPO switch connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40Figure 49 Pin layout of the temperature sensor terminal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Figure 50 LCD port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42Figure 51 Operation and display panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Figure 52 User interface module layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44Figure 53 Startup screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45Figure 54 Main screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45Figure 55 Default screen/screen saver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50Figure 56 Mains screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50Figure 57 Battery screens . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51Figure 58 Output screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51Figure 59 Load screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52Figure 60 UPS info screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52Figure 61 Redundancy screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53Figure 62 Settings screens. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54Figure 63 Battery settings screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56Figure 64 Language selection screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56Figure 65 Alarms screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57Figure 66 Records screen. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57Figure 67 Module replacement screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58Figure 68 Example of prompt window . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58Figure 69 Module LED location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63Figure 70 Lever and fastener . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64Figure 71 Pull out a battery module, a power module or a charge module . . . . . . . . . . . . . . . . . . . . . . . . . . 65Figure 72 Replacing the user interface module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66Figure 73 Replace/clean the top filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67Figure 74 Replace/clean the bezel filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68Figure 75 Replace/clean the bottom fan filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68
TABLESTable 1 Frame designation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4Table 2 Cable connection method reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25Table 3 Input cable selection list—60Hz. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25Table 4 Input cable selection list—50Hz. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25Table 5 Key to Figures 32 and 33 UPS wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27Table 6 Input cable selection for transformer-based frames (60 Hz) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28Table 7 Input cable selection for transformer-based frames (50 Hz) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28Table 8 Key to Figure 38 UPS input wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31Table 9 Key to Figure 38 UPS output wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
v
Table 10 Maximum load capacity of the output winding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31Table 11 Input cable selection for Transformer-free Dual Inverter frames(50/60 Hz). . . . . . . . . . . . . . . . . 32Table 12 Input cable selection for Transformer-free Dual Inverter frames(50/60 Hz). . . . . . . . . . . . . . . . . 32Table 13 EBC DIP switch settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35Table 14 Pin definition of dry contact port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39Table 15 Pin definition of the REPO dry contact . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40Table 16 Pin definition of the temperature sensor terminal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Table 17 LED descriptions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Table 18 Audible alarm descriptions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44Table 19 Control buttons functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44Table 20 Function descriptions of menu button . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44Table 21 Item description of system information window . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45Table 22 Item description of menu window and data window. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46Table 23 Function descriptions of menu buttons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49Table 24 Information and actions required for the prompt window . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59Table 25 Alarm message list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60Table 26 Descriptions of module LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63Table 27 Liebert APS specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69Table 28 Rated input voltage range (Unit: VAC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70Table 29 Liebert APS external battery cabinet specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71Table 30 10-bay, single-phase, no transformer unit Type N (& UPS model number digit 6 = N) . . . . . . . . 72Table 31 10-bay, single-phase, no transformer unit Type N (& UPS model number digit 6 = N) . . . . . . . . 73Table 32 10-bay, single-phase, no transformer unit Type R (& UPS model number digit 6 = R) . . . . . . . . 74Table 33 10-bay, single-phase, no transformer unit Type B (& UPS model number digit 6 = B) . . . . . . . . 75Table 34 10-bay, single-phase, no transformer unit Type F (& UPS model number digit 6 = F) . . . . . . . . 76Table 35 16-bay, single-phase, no transformer unit Type N (& UPS model number digit 6 = N) . . . . . . . . 77Table 36 16-bay, single-phase, no transformer unit Type R (& UPS model number digit 6 = R) . . . . . . . . 78Table 37 16-bay, single-phase, no transformer unit Type B (& UPS model number digit 6 = B) . . . . . . . . 79Table 38 16-bay, single-phase, no transformer unit Type F (& UPS model number digit 6 = F) . . . . . . . . 80Table 39 12-bay, single-phase, transformer-based unit Type N (& UPS model number 6 = N) . . . . . . . . . 81Table 40 12-bay, single-phase, transformer-based unit Type R (& UPS model number 6 = R). . . . . . . . . . 82Table 41 12-bay, single-phase, transformer-based unit Type B (& UPS model number 6 = B). . . . . . . . . . 83Table 42 12-bay, single-phase, transformer-based unit Type F (& UPS model number 6 = F) . . . . . . . . . . 84Table 43 16-bay, single-phase, transformer-based unit Type N (& UPS model number 6 = N) . . . . . . . . . 85Table 44 16-bay, single-phase, transformer-based unit Type R (& UPS model number 6 = R). . . . . . . . . . 86Table 45 16-bay, single-phase, transformer-based unit Type B (& UPS model number 6 = B). . . . . . . . . . 87Table 46 16-bay, single-phase, transformer-based unit Type F (& UPS model number 6 = F) . . . . . . . . . . 88Table 47 10-bay, two-phase, no transformer unit Type N (& UPS model number 6 = N) . . . . . . . . . . . . . . 89Table 48 10-bay, two-phase, no transformer unit Type R (& UPS model number 6 = R) . . . . . . . . . . . . . . 90Table 49 10-bay, two-phase, no transformer unit Type B (& UPS model number 6 = B) . . . . . . . . . . . . . . 91Table 50 10-bay, two-phase, no transformer unit Type F (& UPS model number 6 = F). . . . . . . . . . . . . . . 92Table 51 16-bay, two-phase, no transformer, unit Type N (& UPS model number 6 = N) . . . . . . . . . . . . . 93Table 52 16-bay, two-phase, no transformer unit Type R (& UPS model number 6 = R) . . . . . . . . . . . . . . 94Table 53 16-bay, two-phase, no transformer unit Type B (& UPS model number 6 = B) . . . . . . . . . . . . . . 95Table 54 16-bay, two-phase, no transformer unit Type F (& UPS model number 6 = F). . . . . . . . . . . . . . . 96
Important Safety Instructions
1 Liebert® APS™
IMPORTANT SAFETY INSTRUCTIONS
SAVE THESE INSTRUCTIONSThis manual contains important safety instructions. Read all safety, installation and operating instructions before operating the Liebert® APS™ modular UPS system. Adhere to all warnings on the unit and in this manual. Follow all operating and user instructions. Individuals must fully understand this equipment to install and operate it.
This product is designed for commercial/industrial use only. It is not intended for use with life support or other designated critical devices. Maximum load must not exceed that shown on the rating label. Install and operate the unit only in an indoor clean environment, free from conductive contaminants, moisture, flammable liquids, gases and corrosive substances. This Liebert APS contains no user serviceable parts other than the user replaceable modules. Refer all faults to your local dealer, local Emerson Network Power representative or the Emerson Network Power Liebert Services Group.
The Liebert APS UPS system is designed for use on a properly earthed (grounded) “TN” electrical supply, for installation by qualified personnel. A qualified electrician must review and approve customer supplied wiring, circuit breakers, and intended loads and verify correct input, output, and earth connections to ensure compliance with the technical standards and local electrical codes of practice. Installation instructions and warning notices are found in this manual.
! WARNINGRisk of electric shock. Can cause equipment damage, injury and death.
The battery can present a risk of electrical shock and high short circuit current. The following precautions should be observed before replacing the battery pack:
• Wear rubber gloves and boots• Remove rings, watches and other metal objects.• Use tools with insulated handles.• Do not lay tools or other metal objects on the batteries.• If the battery kit is damaged in any way or shows signs of leakage, contact your local Emer-
son representative immediately.• Do not dispose of batteries in a fire. The batteries may explode.• Handle, transport and recycle batteries in accordance with local regulations.
! WARNINGRisk of electric shock and fire. Can cause equipment damage, injury and death.
Although the Liebert APS UPS has been designed and manufactured to ensure personal safety, improper use can result in electrical shock or fire. To ensure safety, observe the following precautions:
• Clean the UPS with a dry cloth. Do not use liquid or aerosol cleaners.• Never block or insert any objects into the ventilation holes or other openings of the UPS.• Do not place the Liebert APS where it might be damaged.
! WARNINGRisk of electric shock. Can cause equipment damage, injury and death.
This UPS contains no user-serviceable parts except for the user-replaceable module assemblies. The UPS On/Off push button does not electrically isolate internal parts.
All service and maintenance operations must be performed by properly trained and qualified personnel. Under no circumstances should unqualified or unauthorized personnel attempt to gain access to the internal portions of the Liebert APS.
Important Safety Instructions
Liebert® APS™ 2
ELECTROMAGNETIC COMPATIBILITY—The Liebert APS complies with the limits of Category C2, pursuant to IEC/EN/AS 62040-2, and for a Class A digital device, pursuant to Part 15 of FCC rules. Operation is subject to the following conditions:
• The output cables shall be no longer than 10m (32ft).• This device may not cause harmful interference.• This device must accept any interference received, including interference that may cause
undesired operation. Operating this device in a residential area is likely to cause harmful interference that users must correct at their own expense.
The Liebert APS complies with the requirements of EMC Directive 2004/108/EC and the published technical standards. Continued compliance requires installation in accordance with these instructions and use of accessories approved by Emerson.
Operate the UPS in an indoor environment only in an ambient temperature range of 0-40°C (32-104°F). Install it in a clean environment, free from moisture, flammable liquids, gases and corrosive substances.
Do not continue to use the UPS if the front panel indications are not in accordance with these operating instructions or the UPS performance alters in use. Refer all faults to your local service dealer.
Servicing of batteries should be performed or supervised by personnel knowledgeable of batteries and the required precautions. Keep unauthorized personnel away from the batteries. Proper disposal of batteries is required. Refer to your local laws and regulations for disposal requirements.
Never block or insert any object into the ventilation holes or other openings.
DO NOT CONNECT equipment that could overload the UPS or demand DC current from the UPS, for example: electric drills, vacuum cleaners, laser printers, hair dryers or any appliance using half wave rectification.
Storing magnetic media on top of the UPS may result in data loss or corruption. Turn Off and isolate the UPS before cleaning it. Use only a soft dry cloth; never use liquid or aerosol cleaners.
Information for the Protection of the Environment
UPS SERVICING—This UPS makes use of components dangerous for the environment (electronic cards, electronic components). The components removed must be taken to specialized collection and disposal centers.
NOTICE TO EUROPEAN UNION CUSTOMERS: DISPOSAL OF OLD APPLIANCES—This product has been supplied from an environmentally aware manufacturer that complies with the Waste Electrical and Electronic Equipment (WEEE) Directive 2002/96/CE.
The crossed-out trash bin symbol at right is placed on this product to encourage users to recycle components and units whenever possible. Please be environmentally responsible and recycle this product through your recycling facility at its end of life. Do not dispose of this product as unsorted municipal waste. Follow local municipal waste ordinances for proper disposal provisions to reduce the environmental impact of waste electrical and electronic equipment (WEEE).
For information regarding the scrapping/disposal of this equipment, please browse www.eu.emersonnetworkpower.com (Products section or Contact us section) or call Emerson’s worldwide technical support.
• Toll Free Outside of North America: 00 80011554499• Toll Number Based in Italy: +39 0298250222• Toll Free in North America: 1-800-LIEBERT (1-800-543 2378)
Glossary of Symbols
3 Liebert® APS™
GLOSSARY OF SYMBOLS
Risk of electrical shock
Indicates caution followed by important instructions
AC input
AC output
Requests the user to consult the manual
Indicates the unit contains a valve-regulated lead acid battery
Recycle
DC voltage
Equipment grounding conductor
Bonded to ground
AC voltage
!
i
PbH2SO4
- +
R
Product Introduction
Liebert® APS™ 4
1.0 PRODUCT INTRODUCTION
Congratulations on your purchase of the Liebert APS Uninterruptible Power System (UPS). As with every other Liebert product, we stand behind our quality. If you have any questions concerning this UPS, please feel free to contact your local dealer or Liebert representative or call the appropriate Technical Support number listed on the back of this manual.
To ensure proper installation and operation of this unit, please read this manual thoroughly.
The installation must be completed by trained professionals and follow all local codes. General operation of the units can be conducted without any specialized training.
This chapter provides the system description, features, operating principle, operating mode, main components and specifications of the Liebert APS UPS.
1.1 System Description
The Liebert APS power system is a modular UPS designed to provide high reliability. It is intended for use with workstations, servers, networks, telecoms and other sensitive electronic equipment. It provides continuous, high-quality AC power to your equipment, protecting it from any power disturbance due to blackouts, brownouts, surges or noise interference.
The Liebert APS UPS is an easily adaptable UPS system. By simply installing additional power or battery modules, you can expand your current system capacity, extend your backup runtime, or provide redundancy. The Liebert APS UPS user interface enables the user to configure the operation according to application requirements. It also informs the user on the status of the UPS and keeps a log of events.
The Liebert APS series UPS contains both transformer-free and transformer-based UPS frames. The use of the transformer-free or transformer-based frames is dependent upon the specific application requirements. The appearance of the different frames is shown in Figures 1 through 4.
Table 1 Frame designation
UPS Model Number Digits 1-3 Frame Type Frame Rating
AS1 or ASA or AS5 or ASE 10 Bay Transformer-free 15 kVA redundant
AS2 or ASB or AS6 or ASF 16 Bay Transformer-free 20 kVA redundant
AS3 or ASC 12 Bay Transformer-based 15 kVA redundant
AS4 or ASD 16 Bay Transformer-based 20 kVA redundant
Product Introduction
5 Liebert® APS™
Figure 1 16-bay transformer-free UPS
Figure 2 10-bay transformer-free UPS
Manual Bypass Breaker (under cover)
User Interface Module
Bays for Power, Charger or Battery Modules
Bays for Battery Modules
System Control Module (under cover)
Dry Contacts and REPO Connections
POD Ports
FRONT VIEW(Bezels Removed)
REAR VIEW
Liebert IntelliSlot®
Ports
Power Input and Output Terminals
OutputBreaker
USB Port
External Battery Cabinet Connector
System Enable Switch
Input Breaker (under cover)
Manual Bypass Breaker (under cover)
User Interface Module
Bays for Power, Charger, or Battery Modules
Bays for Battery Modules
System Control Module (under cover)
Dry Contacts and REPO Connections
POD Port
Liebert IntelliSlotPorts
Power Input and Output Terminals
Output Breaker
External Battery Cabinet Connector
System Enable Switch
Input Breaker (under cover)
FRONT VIEW (Bezels Removed)
REAR VIEW
USB Port
Product Introduction
Liebert® APS™ 6
Figure 3 12-bay transformer-based UPS
User Interface Module
Bays for Power, Charger, or Battery Modules
Bays for Battery Modules
System Control Module (under cover)
Dry Contacts and REPO Connections
Ports for PODs
FRONT VIEW(Bezels Removed)
REAR VIEW
Liebert IntelliSlot®
Ports
Input Breaker
USB Port
External Battery Cabinet Connectors
System Enable Switch
Fans
Output Breaker
Power Input and Output Terminals
Manual Bypass Breaker
Product Introduction
7 Liebert® APS™
Figure 4 16-bay transformer-based UPS
Manual Bypass Breaker (under cover)
User Interface Module
Bays for Power, Charger or Battery Modules
Battery Module Bays
System Control Module(under cover)
FRONT VIEW(Bezels Removed)
Fans
Dry Contacts and REPO Connections
POD Ports
REAR VIEW
Liebert IntelliSlot®
Ports
InputBreaker
USB Port
External Battery Cabinet Connector
Output Breaker
Power Input and Output Terminals
System Enable Switch
Product Introduction
Liebert® APS™ 8
1.2 Features
Liebert APS UPS• Flexible extension of capacity, up to 15 or 20kVA modular power, depending upon frame rating• N + 1 redundancy, improving availability• Module design, modules hot-swappable by user• Redundant intelligent module, providing redundant communication path• Intelligent battery management• External large batteries can be connected• Internal automatic and manual bypass• Transformer-based UPS frames provide output isolation transformer• Optional 10A battery charger module• Continuous system monitoring• User-friendly interface with audible alarms and event logs• Supporting hot-pluggable and online update• Compatible with backup generators
Standard Components• UPS frame• User interface module: for comprehensive user indications and programmable controls• System control modules and system monitor module: for system monitoring and communications• Power modules: for power conditioning• Battery modules: for backup power• Charger module: option for charging batteries and long run time applications• External battery cabinet: prolongs system run time
Communications• Dry contacts• Liebert IntelliSlot communication ports• USB port
Product Introduction
9 Liebert® APS™
1.3 Operating Principle
The operating principle of the Liebert APS UPS is shown in Figure 5.
Figure 5 Operating principle diagram
The Liebert APS UPS is composed of AC input, EMI filter, power module(s), battery module(s), user interface, control interface, system control module, output and bypass contactor, manual bypass, output transformer (certain frames only) and AC output.
Input
EMIFilter
PowerModule(s)
EMIFilter
Output
Manual Bypass
BatteryModule(s)
UserInterface Control
Interface
System ControlModule
System MonitorModule
Communication
PowerControl
Output andBypass
Contactor
OutputTransformer
Wiring
Transformer modelshave an output isolating
transformer
Product Introduction
Liebert® APS™ 10
1.4 Operating Modes
The Liebert APS UPS is a true online double-conversion system, having the following operating modes:
• Normal Mode• Backup Mode• Auto Restart Mode• Bypass Mode
Normal Mode
The power module rectifiers derive power from a utility AC source and supply regulated DC power to the inverter. The module’s inverter regenerates precise AC power to supply the connected equipment. The battery charger is in the power module and maintains a float-charge on the batteries of the UPS; additionally, the optional charger module can also charge the batteries to maintain a quicker recharge time for long backup time applications.
Backup Mode
When AC utility fails, the connected equipment is supplied power by the inverter, which obtains energy from the battery modules. The output power will not be interrupted during the failure or restoration of the AC utility/mains source.
Auto Restart Mode
After a power outage and complete battery discharge, and once AC utility is restored, the UPS will automatically restart and resume supplying power to connected equipment. This feature is enabled at the factory, but can be disabled by the user. The user can also program two auto restart delay settings from the LCD:
• Battery capacity level (%)• Countdown timer
Bypass Mode
The bypass provides an alternate path for power to the connected equipment and operates in the following manner:
• Automatic: In the event of an internal fault or should the inverter overload capacity be exceeded, the UPS performs an automatic transfer of the connected equipment from the inverter to the bypass source.
• Manual: Should the UPS need to be taken out of service for limited maintenance or repair, manual activation of the bypass will cause an immediate transfer of the equipment from the inverter to the bypass source.
Product Introduction
11 Liebert® APS™
1.5 Major ComponentsThis section provides a general description of each component and its functions. Please review this section carefully, as it will give you a better understanding of how the UPS operates.
1.5.1 UPS FrameThe UPS frames are shown in Figure 6.
Figure 6 UPS frames, bezels removed
All UPS components are located in the Liebert APS frame. The front of the UPS consists of a series of plastic bezels. By grasping these bezels from the sides and pulling straight out, you can remove the bezel to reveal the battery/power module bays. The standard-model frame provides cooling fans and a manual bypass breaker on its top; the transformer-model frame provides a manual bypass breaker on its bottom and fans on both top and bottom. The user interface module is located above the power/battery module bays for easy access, operation and for viewing UPS operating information. On the lower right part of the user interface module, you will see the system control module bays.
NOTEIn Figure 6, the power module and battery module are extended for illustration purposes only. Extending more than one module at a time could cause the unit to tip over.
16-Bay Transformer-Free UPS
16-Bay Transformer-Based UPS
10-Bay Transformer-Free UPS
12-Bay Transformer-Based UPS
Fan (behind display bracket)
Manual Bypass Breaker
Fan(behind display bracket)
Manual Bypass Breaker
Fans
Fan (behind display bracket)
Manual Bypass Breaker
Manual Bypass Breaker
Fan (behind display bracket)
Fans
Product Introduction
Liebert® APS™ 12
1.5.2 User Interface ModuleThe user interface module is shown in Figure 7.
Figure 7 User interface module
The user interface module is the primary source of communication between the UPS and the user. The user interface module permits:
• Viewing the UPS status• Configuring the system• Reviewing the event log• Silencing the audible alarm
Refer to 4.0 - Operation and Display Panel for details on operating the user interface module.
1.5.3 System Control Module and System Monitor Module
The system control module and the system monitor module are the communication backbone of the UPS. They gather input from all modules and process the data to control the operation of the system, including monitoring the condition of each module. Except for the silkscreen, the appearance of the system control module and the system monitor module is as shown in Figure 8.
Figure 8 Liebert APS system control module and the system monitor module
Under normal operation, the green status LED will blink and the yellow fault LED will be Off. For any other condition, refer to 5.0 - Troubleshooting.
Handle
Green Status LED
Yellow Fault LED
Securing Hole
Locking Lever
Product Introduction
13 Liebert® APS™
1.5.4 Power Module
The power module is shown in Figure 9.
Figure 9 Liebert APS power module
Each power module is an independent 5kVA unit, consisting of a power factor corrected rectifier, battery charger and inverter, with associated monitoring and control circuitry. The modules are connected in parallel for greater capacity and/or redundancy.
The power modules may be added or replaced on-line with no interruption or danger to the connected equipment or user.
1.5.5 Battery Module
The battery module is shown in Figure 10.
Figure 10 Battery module appearance
When AC utility fails, the battery module will supply power to the load. Each battery module contains six individual 12V, valve-regulated lead-acid (VRLA) battery blocks. Two battery modules are connected in series to form a battery string.
Each battery module has monitoring and controls to isolate the battery module in the event of a battery failure. The battery strings are connected in parallel to provide backup time and/or redundancy.
The battery modules may be added or replaced on-line with no interruption or danger to the connected equipment, provided that the UPS is not operating on battery.
Under normal operation, the green status LED will blink continuously and the yellow fault LED will be Off. For any other condition, refer to 5.0 - Troubleshooting.
NOTETwo battery modules must be installed in the same layer to make a complete battery string.
Yellow Fault LED
Locking Lever
FRONT VIEW
FanGreen Status LED
Green Status LED
Yellow Fault LED
Locking Lever
FRONT VIEW
Product Introduction
Liebert® APS™ 14
1.5.6 Charger ModuleFigure 11 shows the charger module.
Figure 11 Appearance of the charger module
In AC mains mode, the charger module charges the system battery modules or external battery cabinet. Each charger module is rated to deliver 10A charging current. The charger module has an independent control function and maintains real-time communication with the system and the battery modules to ensure stable charging and fault protection.The charger module may be added or replaced on-line with no interruption or danger to the user, connected battery system or connected equipment.
1.5.7 External Battery Cabinet (EBC)The external battery cabinet is divided into nine layers: the upper seven layers are for use with the intelligent battery modules, and the lower two are used for overcurrent protection for each battery cabinet. For normal operation, two battery modules must be inserted in the same layer of the frame to create a complete string. The battery module strings work in parallel to provide longer backup time for the UPS. A Liebert APS can be configured with, at most, four external battery cabinets.An external battery cabinet is shown in Figure 12.
Figure 12 External battery cabinet
Green Status LED
Yellow Fault LED
Installation
15 Liebert® APS™
2.0 INSTALLATION
This chapter describes UPS installation, including installation preparation, unloading the UPS, mechanical installation, installing modules and cable connection.
2.1 Unpacking InspectionUpon receiving the UPS, uncrate it and conduct the following checks:
• Inspect the UPS appearance for shipping damage. Report any shipping damage to the carrier and send a copy to your Emerson Network Power® representative.
• Check against the delivery list to ensure that the package contains the correct number and type of accessories. If there is any discrepancy, contact the distributor immediately.
2.1.1 Installation Environment
The UPS environment must be free of conductive contaminants and excessive moisture (water and condensation), flammable vapors, chemical fumes, corrosive gases and liquids.
2.1.2 Installation ToolsThe tools required to properly set up your UPS are listed below:
• Pallet jack• 17mm (11/16") wrench or socket• 13mm (1/2") wrench or socket• 10mm wrench or socket• #1 and #3 Phillips screwdrivers• Torque wrench
2.1.3 Installation Site
Consider the weight and size of the Liebert APS when deciding where to install the unit. Verify that the floor can support the weight of a fully loaded unit, any accessories and external cabinets.
Verify that the UPS will be in a well-ventilated area with at least 12 inches (305mm) clearance behind it. The UPS is air-cooled, utilizing internal fans. Air is drawn into the front of the UPS and is exhausted through ventilation grilles in the back. The UPS should also have at least 39 inches (1m) clearance in front for service and to meet many local and national building codes.
Figure 13 Front and rear installation clearances
NOTEOperating the UPS in temperatures above 77°F (25°C) will reduce battery life.
39in. (1000mm)
12in. (305mm)
Installation
Liebert® APS™ 16
2.2 Unloading the UPS
The unit frame is bolted to the shipping pallet to ensure safety during shipping. Emerson recommends keeping the unit bolted to the pallet and using a pallet jack to transport the unit to its installation location.
To unload the UPS:
1. Move the UPS to its installation site and remove the package paper.2. Use a 17mm (11/16") wrench, to remove the four mounting bolts from the pallet brackets (see
Figure 14).3. Remove the mounting brackets from the UPS with a 10mm wrench or socket or a #3 Phillips
screwdriver.
Figure 14 Remove the mounting brackets
4. Raise the four leveling feet to provide clearance between the pallet and the UPS frame.5. Connect the ramp to the UPS pallet, as shown in Figure 15.6. Roll the UPS slowly down the ramp until it is on a level surface, as shown in Figure 15.
Figure 15 Connect the ramp and remove UPS
NOTEThis UPS is very heavy. At least two people should assist in unloading it from the pallet.
A
Mounting Bolts(4 places)Mounting Bracket
Pallet
Detail A
UPS
Installation
17 Liebert® APS™
2.3 Mechanical InstallationTwo installation modes are available for the Liebert APS UPS: tower installation and rack installation.
2.3.1 Tower Installation1. Once the UPS is in the desired location, adjust the leveling feet to secure its position, as shown in
Figure 16.a. Use an open end wrench to turn the lower nut to raise or lower the leveling foot.b. After the unit is level, tighten the upper nut against the frame to prevent the height from
changing.
Figure 16 Adjust the leveling feet
2. For added stability or earthquake-resistant installations, the shipping brackets can be used to secure the unit to the floor. a. Drill holes 10.3mm (13/32") in the floor for stationary mounting; these will accommodate the
mounting bolts removed from the pallet. Refer Figure 17 for the layout.b. Use the mounting screws to install the mounting brackets on the front and rear of the UPS.c. Secure the mounting brackets to the floor with the mounting bolts (see Figure 17).
For greater stability, use a higher-grade bolt.
Figure 17 Installation position and drilling hole dimensions for stationary mounting
A
Detail A
Lower nut is bonded to leveling foot; used to raise and lower foot
Upper nut is threaded on leveling foot; used to hold foot height
Rear View
Mounting BoltMounting Bracket
716mm (28.19")
340mm (13.39")
M10 screw
Floor-Mounting Hole Layout
Installation
Liebert® APS™ 18
2.3.2 Rack Installation1. Install the cage nuts on the corresponding positions in the rack, as shown in Figure 18.
a. Install cage nuts in the two lower square holes of 1U space and in the two upper square holes of 2U space of all four rack posts. These cage nuts will secure the optional shelf that will support the weight of the Liebert APS.
b. Install a cage nut in the middle square hole of 4U, 6U, 10U, 12U spaces, respectively, again in all four posts. The cage nuts will help secure the UPS in the rack.
Figure 18 Install cage nuts
2. Install the rack-mount shelf on the corresponding position between 1U space and 2U space on the bottom of the rack, as shown in Figure 19.
Figure 19 Install the tray
3. Install the guide rails (ramp) in the mounting slot at the front of the tray, as shown in Figure 20.
A
Detail A
Floating Nut
B
Detail B
Screw,16 placesTray
Installation
19 Liebert® APS™
Figure 20 Install the guide rails
4. Unscrew the 10 screws on the front of the two side panels of the UPS frame.5. Use those screws to attach the brackets to each side of the UPS frame, as shown in Figure 21.
Figure 21 Install the brackets
6. Push the Liebert APS frame slowly into the enclosure from the front, as shown in Figure 22. The rear of the UPS goes into the rack first when installing through the front of the rack.
CGuideRail
Mounting Slot
Insert one endof the guide railinto the mountingslot on the tray
Detail C
D
Detail D
Screw(8 places)
Bracket
Bracket
Installation
Liebert® APS™ 20
Figure 22 Push the UPS frame into the rack
7. Use eight panel screws to secure the UPS frame to the rack posts, as shown in Figure 23.
Figure 23 Fix the UPS frame
8. Use four screws to install the metal plate (accessory in the rack-mount kit) on the corresponding position on the lower front part of the UPS frame
9. Insert the plastic bezel into the square holes of the metal plate, as shown in Figures 24 and 25.
NOTEIt might be necessary to use the leveling feet to get the holes to align
Guide Rails
Push the UPS frame into the rack.
Front of Rack
Front of UPS
Panel Screw (8 Places)
Detail E E
Installation
21 Liebert® APS™
Figure 24 Install the metal plate
10. The installation is complete, as shown in Figure 25.
Figure 25 Installation completed
F
Detail F
Screw(4 places)
MetalPlate
Squarehole
(2 places)
Bezel
Installation
Liebert® APS™ 22
2.4 Module Installation
The Liebert APS ships from the factory configured (modules prepopulated) and tested as a system to the customer’s requirements. If any modules were removed to facilitate ease of installation, follow the steps below to re-insert them properly.
2.4.1 Installing Power Module, Battery Module and Charger Module1. Lift module to appropriate bay, resting end of module on bay shelf.
2. Push the module into the bay slowly. The module will be locked until 1/3 is in.a. At this point, lift the module up and continue pushing it until about 5cm of the module is still
out of the bay. b. Push it firmly and smoothly to ensure that the module is fully inserted, as shown in
Figure 26.
Figure 26 Insert the power module, battery module and charger module
3. Use a #2 Phillips screwdriver to install the module-securing bracket, and then press the lever down into the bracket, as shown in Figure 27.
NOTEUse caution not to rest the module on any of the plastic bezels, this could damage the bezel.
Two battery modules must be installed in the same row to complete the battery string.
50mm
Step 2 aStep 1
Step 2 b
Installation
23 Liebert® APS™
Figure 27 Lever and fastener
4. Replace the small plastic bezels.
2.4.2 Install System Control and System Monitor Modules1. Remove the display bezel and the user interface (LCD) module on top of the frame, as shown in
Figure 28.
Figure 28 Remove large plastic bezel and user interface module
2. Push the module slowly until about 1cm of the module is still out of the bay, and then press it firmly to ensure that the module is fully inserted, as shown in Figure 29.
NOTEIf the lever of the module cannot be pressed down smoothly, remove the module and reinstall it.
Pull Out
PressDownward
After Pressing the LeverSide View
Before Pressing the LeverSide View
DisplayBezel
UserInterfaceModule
Installation
Liebert® APS™ 24
Figure 29 Insert the System Control and System Monitor module
3. Use a #2 Phillips screwdriver to install the screws into the holes on each end.4. Slide the lever toward the right, as shown in Figure 30.
Figure 30 Lever and fastener on System Control and System Monitor Module
5. Replace the LCD module and display bezel.
10mm
Insertmodulehere
MountingHole
Lever
MountingHole
PullOut Before Pressing
LeverAfter Pressing
Lever
Press and Slideto the Right
Installation
25 Liebert® APS™
2.5 Cable Connection
Refer to the unit model number in Table 2 to determine which instructions to use for installation.
2.5.1 Transformer-Free UPS Cable Connection
A junction box is factory-installed on each model of the Liebert APS to ease cable connection.
Select the appropriate input cables according to Table 3 and Table 4 based on the UPS rating and mains frequency; however, it is recommended that you size the over current protection and wiring for the frame rating to easily allow upgrades to the UPS system.
! WARNINGRisk of electric shock. Can cause injury or death.
Disconnect local and remote power supplies before working within.
Read this section thoroughly before attempting to install wiring to this unit.
Ensure that all the UPS input sources are disconnected off before attempting to install wiring to this unit.
This UPS cables should be connected by a properly trained and qualified electrician.
Table 2 Cable connection method reference
UPS Model #Digits 1-3 Frame Type
ManualSection
AS1 or ASA 10 Bay Transformer-free 2.5.1
AS2 or ASB 16 Bay Transformer-free 2.5.1
AS3 or ASC 12 Bay Transformer-based 2.5.2
AS4 or ASD 16 Bay Transformer-based 2.5.2
AS5 or ASE 10 Bay Transformer-free 2.5.3
AS6 or ASF 16 Bay Transformer-free 2.5.3
Table 3 Input cable selection list—60Hz
MaximumSystem
Rated Load
Input voltage - 200VAC Input voltage - 208VAC Input voltage - 240VAC
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
5kVA 27A 50A 26A 50A 23A 50A
10kVA 53A 63A 51A 63A 45A 63A
15kVA 80A 100A 77A 100A 67A 100A
20kVA 106A 125A 102A 125A 90A 125A
The power input and output terminals accept a maximum cable cross-sectional area of 35mm2 (2AWG); the minimum cable cross-sectional area is 16mm2 (6AWG); the rated torque is 4.52Nm (40 in-lb).Use of 90°C copper wire is recommended
Table 4 Input cable selection list—50Hz
MaximumSystem Rated
Load
Input Voltage - 220VAC Input Voltage - 230VAC Input Voltage - 240VAC
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
5kVA 25A 50A 24A 50A 23A 50A
10kVA 49A 63A 47A 63A 45A 63A
15kVA 73A 100A 70A 100A 67A 100A
20kVA 97A 125A 93A 125A 90A 125A
The power input and output terminals accept a maximum cable cross-sectional area of 35mm2 (2AWG); the minimum cable cross-sectional area is 16mm2 (6AWG); the rated torque is 4.52Nm (40 in-lb).90°C copper wire recommended
Installation
Liebert® APS™ 26
To connect the cable:
1. Remove the knockouts at the junction box (see Figure 31) and pull the cables through them, leaving some slack for installation.
Figure 31 Knockouts
2. Connect the cables to the corresponding terminal of the power input and output terminals.3. Tighten the screws to 4.52Nm (40 in-lb) with a 13mm (1/2") torque wrench.4. Respectively, secure the conduit of the input/output cables through the cable bridges on the rear
panel of the UPS (see Figure 31).
The connection methods in the single-phase input mode and the 3-phase input mode are shown in Figures 32 and 33, respectively. Installation of the factory-provided copper bar is essential in the single-phase input mode. The copper busbar is in the accessory bag included with the UPS.
Figure 32 Connection in single-phase input
NOTEInput and output cables must be run in separate conduit before cable connection.
For the user whose input power grid is L-L line voltage, the input N of the power input and output terminals will connect live wire, so the output N of the power input and output terminals is also live wire.
16-Bay Liebert APSNo Transformer
10-Bay Liebert APSNo Transformer
PE 2 1 PE 4 3 2 1
OUTPUT INPUT
200V/208V/220V/230V/240V
200V/208V/220V/230V/240V
Installation
27 Liebert® APS™
Figure 33 Connection in 3-phase input
Table 5 Key to Figures 32 and 33 UPS wiring
SystemVoltage
System NominalFrequency
Input Terminal Block Output Terminal Block
1 2 3 4 PE 1 2 PE
200 60 L1 * L1 * L1 * L2 GND L1 L2 GND
208 60 L1 * L1 * L1 * L2 GND L1 L2 GND
220 60 L1 * L1 * L1 * L2 GND L1 L2 GND
230 60 L1 * L1 * L1 * L2 GND L1 L2 GND
240 60 L1 * L1 * L1 * L2 GND L1 L2 GND
200 50 L * L * L * N PE L N PE
220 50 L * L * L * N PE L N PE
230 50 L * L * L * N PE L N PE
240 50 L * L * L * N PE L N PE
380 50 L1 L2 L3 N PE L N PE
400 50 L1 L2 L3 N PE L N PE
415 50 L1 L2 L3 N PE L N PE
* This connection requires the factory-provided three-position busbar to connect the three terminal block positions
PE 2 1 PE 4 3 2 1
OUTPUT INPUT
200V/208V/220V/230V/240V 380V/400V/415V
Installation
Liebert® APS™ 28
2.5.2 Transformer-Based UPS Cable Connection
A junction box is factory-installed on all models of the Liebert APS to ease cable connection.
Select the appropriate input cables according to Table 6 and Table 7 based upon the UPS rating and mains frequency. Emerson recommends sizing the frame’s overcurrent protection and wiring to permit easier UPS system upgrades.
NOTEAfter the output transformer is installed, if the startup is on bypass, the UPS has a six-cycle inrush current that is up to 20 times the rated output current. This must be taken into account when selecting the input overload protection device at the AC input supply distribution point.
To avoid random tripping on startup, Emerson® recommends that the AC input supply be protected with a circuit breaker capable of withstanding this initial inrush (the MCB is derated according to the D curve or TYPE 4).
This UPS is fitted with EMI filters. Earth leakage current is less than 40mA. Transient and steady state earth leakage currents may occur when starting the UPS. This should be taken into account when selecting transient RCCB or RCCD (leakage current devices of the UPS and load).
The MCB of the AC power supply connected to the UPS input must bear this warning:
Disconnect the connection with UPS before maintaining this circuit
The warning is required because the UPS has no autofeeding protection device.
The UPS grounding should be in accordance with local regulations.
Table 6 Input cable selection for transformer-based frames (60 Hz)
MaximumSystem Rated
Load
Input Voltage - 200VAC Input Voltage - 208VAC Input Voltage - 240VAC
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
5kVA 27A 50A 26A 50A 23A 50A
10kVA 53A 63A 51A 63A 45A 63A
15kVA 80A 100A 77A 100A 67A 100A
20kVA 106A 125A 102A 125A 90A 125A
The power input and output terminals accept a maximum cable cross-sectional area of 70mm2 (2/0AWG); the minimum cable cross-sectional area is 16mm2 (6AWG). The rated torque is 12.43Nm (110 in-lb).90°C copper wire recommended.
Table 7 Input cable selection for transformer-based frames (50 Hz)
MaximumSystem Rated
Load
Input Voltage - 220VAC Input Voltage - 230VAC Input Voltage - 240VAC
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
5kVA 25A 50A 24A 50A 23A 50A
10kVA 49A 63A 47A 63A 45A 63A
15kVA 73A 100A 70A 100A 67A 100A
20kVA 97A 125A 93A 125A 90A 125A
The power input and output terminals accept a maximum cable cross-sectional area of is 70mm2 (2/0AWG); the minimum cable cross-sectional area is 16mm2 (6AWG). The rated torque is 12.43Nm (110 in-lb).90°C copper wire recommended.
Installation
29 Liebert® APS™
Configuring the Bypass Voltage
The UPS bypass voltage is factory-set to 208V (the jumper copper bar has been installed). Should the user have a utility supply of 200V/220V/230V/240V, the bypass voltage jumper must be changed to ensure correct output voltages when in bypass mode. Configuring the bypass voltage jumper settings are shown in Figures 34 and 35. Refer to Table 9 for the proper setting according to the AC mains voltage configuration.
Figure 34 Setting bypass voltage jumper (default: 208VAC)
Figure 35 Setting bypass voltage jumper (200/220/230/240VAC)
Jumper
34GEC 2 1 1 2 3
INPUT208V TapOUTPUT
1 2 PE
240V Tap
208VAC
PE
Jumper
34GEC 2 1 1 2 3
INPUT208V TapOUTPUT
1 2 PE
240V Tap
240VAC
PE
Installation
Liebert® APS™ 30
Configuring the Neutral/Earth Jumper
The UPS contains an isolation transformer that generates a neutral conductor for the connected load. The UPS is a separately derived source and contains a neutral/earth jumper. A factory-installed neutral/earth jumper copper bar may require removal to comply with local codes and regulations.
Figure 36 Configuring the neutral/earth jumper
Connecting Cables
To connect the cable:
1. Remove the knockouts at the junction box (see Figure 37) and pull the cables through them, leaving some slack for installation.
Figure 37 Knockouts
2. Connect the cable to the corresponding terminal of the power input and output terminals. Using a torque wrench, tighten the screws to 4.52 Nm (40 in-lb). The connections are shown in Figure 38.
NOTEInput and output cables must be run in separate conduit before cable connection.
Neutral/Earth Jumper
34GEC 2 1 1 2 3
INPUT208V TapOUTPUT
1 2 PE
240V Tap
PE
16-Bay Liebert APSWith Transformer
12-Bay Liebert APSWith Transformer
Installation
31 Liebert® APS™
Figure 38 Connection method
Refer to Table 7 for configuring the output cable. For standard voltages, make the connections shown in Table 9.
Table 10 shows the maximum load capacity of the output winding of the transformer-based UPS.
Table 8 Key to Figure 38 UPS input wiring
SystemVoltage
SystemNominal
Frequency
Input Terminal Block
1 2 PE
200 60 L1 L2 GND
208 60 L1 L2 GND
220 60 L1 L2 GND
230 60 L1 L2 GND
240 60 L1 L2 GND
200 50 L N PE
220 50 L N PE
230 50 L N PE
240 50 L N PE
Table 9 Key to Figure 38 UPS output wiring
OutputVoltage
Set OutputVoltageby LCD
Bypass Voltage Jumper Output Voltage (Between Terminals)
208V TAP(1-2)
240V TAP(2-3) 1-4 3-4 2-3 1-3
200/100 200 — OK 100 100 173(Do Not Use)
200
220/110 220 — OK 110 110190
(Do Not Use) 220
230/115 230 — OK 115 115 199(Do Not Use) 230
220/127 220 OK — 127 127 220 254(Do Not Use)
240/120 240 — OK 120 120 208 240
208/120 208 OK — 120 120 208 240If the bypass voltage jumper copper bar is connected incorrectly, the system will report a fault alarm.When wiring to single-phase panels, connect to output terminals 1, 3, 4 and PE (GND) only.
Table 10 Maximum load capacity of the output winding
UPS Model
Maximum Output Capacity, kVA(Between Terminals)
1-4 3-4 2-3 1-3
16-bay Transformer-based UPS 10 10 20 20
10-bay Transformer-based UPS 7.5 7.5 15 15
34GEC 2 1 1 2 3
INPUT208V TapOUTPUT
1 2 PE
240V Tap
PE
200V/208V/220V/230V/240V
Factory-supplied jumper
1-3: 240V; 2-3: 208V; 1-4: 120V;3-4: 120V (When the output voltage is
set to 240V through LCD )
Installation
Liebert® APS™ 32
2.5.3 Transformer-Free UPS—Dual Inverter Frames
A junction box is factory-installed on all models of the Liebert APS to ease cable connection.
Select the appropriate input cables according to Tables 11 and 12 based on the UPS rating and mains frequency. Emerson recommends sizing the overcurrent protection and wiring for the frame rating for easing upgrades to the UPS system.
To connect the cable:
1. Remove the knockouts at the junction box (see Figure 31) and pull the cables through them, leaving some slack for installation.
Figure 39 Knockouts
2. Connect the cables to the corresponding terminal of the power input and output terminals. 3. Tighten the screws to 4.52Nm (40 in-lb) with a 13mm (1/2 in) torque wrench.
Table 11 Input cable selection for Transformer-free Dual Inverter frames(50/60 Hz)
MaximumSystem Rated
Load
Input Voltage – 200/100VAC Input Voltage – 208/120VAC Input Voltage – 240/120VAC
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
5kVA 28A 50A 27A 50A 27A 50A
10kVA 56A 63A 54A 63A 54A 63A
15kVA 84A 100A 80A 100A 80A 100A
20kVA 112A 125A 107A 125A 107A 125A
The power input and output terminals accept a maximum cable cross-sectional area of 35mm2 (2AWG); the minimum cable cross-sectional area is 16mm2 (6AWG); and the rated torque is 4.52Nm (40 in-lb);.90°C copper wire is recommended.
Table 12 Input cable selection for Transformer-free Dual Inverter frames(50/60 Hz)
MaximumSystem Rated
Load
Input Voltage – 220/110VAC Input Voltage – 230/115VAC Input Voltage – 220/127VAC
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
MaximumCurrent inUPS Mode
RecommendedInput ProtectionCircuit Breaker
5kVA 28A 50A 28A 50A 27A 50A
10kVA 56A 63A 56A 63A 54A 63A
15kVA 84A 100A 84A 100A 80A 100A
20kVA 112A 125A 112A 125A 107A 125A
The power input and output terminals accept a maximum cable cross-sectional area of 35mm2 (2AWG); the minimum cable cross-sectional area is 16mm2 (6AWG); and the rated torque is 4.52Nm (40 in-lb);90°C copper wire is recommended.
NOTEInput and output cables must be run in separate conduit before cable connection.
10-Bay Liebert APSNo Transformer
16-Bay Liebert APSNo Transformer
Installation
33 Liebert® APS™
4. Respectively secure the input/output cables through the cable bridges on the rear panel of the UPS (see Figure 40).
Figure 40 Secure cables on cable bridges
The connections for the single-phase input mode and the 3-phase input mode are shown in Figure 32 and Figure 33, respectively. The copper jumper busbar is essential for the single-phase input mode.
Figure 41 Wiring connections
OUTPUT INPUTPE N L2 L1 PE N L2 L1
Installation
Liebert® APS™ 34
2.5.4 Connecting External Battery Cabinet
Up to four external battery cabinets may be connected to the Liebert APS to provide longer battery run times.
An external battery cabinet contains a standard battery cable and a communication cable, each 1meter (39in) long. They are used to connect UPS and the external battery cabinet. Optional cables of 3 and 5 meters can be provided if the battery cabinets must be located some distance from the UPS cabinet.
To connect an external battery cabinet:
1. Connect one end of the battery cable to the external battery connector on the rear of the UPS.2. Connect the other end to the corresponding port on the rear of the external battery cabinet, as
shown in Figure 42 and Figure 43.3. Install and tighten a grounding screw between the EBC battery cable and the UPS frame.4. Insert a Liebert IntelliSlot EBC card into any intelligent card slot on the rear of UPS. Connect
one end of the signal cable to the Liebert IntelliSlot EBC card and the other end to the Liebert IntelliSlot EBC card on the rear of the external battery cabinet, as shown in Figure 42 and Figure 43.
Figure 42 Connecting external battery cabinet to a transformer-free UPS
CommunicationCable
Battery Cable
Battery CabinetLiebert APS
Installation
35 Liebert® APS™
Figure 43 Connecting external battery cabinet (transformer-based UPS)
After connecting the external battery cabinet, use the user interface to determine the number of external battery cabinets, as shown in Figure 44.
Figure 44 Battery screen
If the number displayed is not consistent with the actual installation number of external battery cabinets:
• Ensure each external battery cabinet contains two battery modules installed on the same row and both have the locking levers in the locked position.
• Ensure the Liebert IntelliSlot EBC card is installed properly and the communication cables are fully inserted in the connectors.
• Determine that the DIP switch setting of each battery cabinet is correct using the following table
Table 13 EBC DIP switch settings
External BatteryCabinet Number
DIP Switch Setting
1 2
EBC #1 UP UP
EBC #2 Down UP
EBC #3 UP Down
EBC #4 Down Down
Battery CabinetLiebert APS
CommunicationCable
Battery Cable
Battery
Batt temp ( C)Discharge countDischarge hour (H)Ext batt-cab count
Liebert APS 2012-01-0110:45:20
25.03039.40
ESC
Installation
Liebert® APS™ 36
2.5.5 Connecting Integrated Power Output Distribution (POD)
The rear panel of the Liebert APS UPS provides the capability to add integrated distribution outlets (PODs) as an option to allow direct AC power connection of the supported equipment to the UPS. These PODs are intended to allow the user to install and even change distribution, if necessary as equipment changes, while the UPS is still providing power. Follow these steps to properly and safely add or change the optional PODs.
1. Ensure that the POD breaker is in the Off position.
2. Using a Phillips screwdriver, remove the two screws that are at the top of the POD cover plate and retain these for reattaching the POD.
3. Remove the POD cover plate to expose the POD connectors.4. Insert the bottom of the POD into the slot provided, and then connect the POD connectors.
5. Secure the POD by using the two screws removed in Step 2.6. Repeat Steps 1 through 5 to install a second POD on the Liebert APS (only the 16-bay frame has
two POD ports).7. Connect the equipment to the appropriate outlets.8. Close the POD breaker(s) to connect AC power to the outlets.9. After commissioning the UPS, turn On the connected equipment per the manufacturer’s
instructions (see 2.5.6 - Commissioning/Startup Procedures).
2.5.6 Commissioning/Startup Procedures
The Liebert APS can be commissioned with or without AC power being connected. Follow these steps for the initial UPS system startup:
Checks Before Commissioning/Startup
___ 1. Verify that the AC power connections are wired properly and all connections are tight.
___ 2. If using external battery cabinets or third-party battery systems, verify that the DC power and communication cables are connected properly and all connections are tight.
___ 3. Measure and record the AC input voltage and frequency. This will be needed to properly configure the output voltage of the Liebert APS system.
___ 4. If any modules within the Liebert APS system were removed during installation, verify that all modules are fully inserted and that the module locking levers are in the locked position.
___ 5. If the UPS is being connected into a Remote Emergency Power Off (REPO) circuit, refer to 3.3 - REPO (Remote Emergency Power Off) for the REPO connection details and instructions. If no REPO circuit is required or used, the factory-installed jumper must be removed from the terminal block Pins 9-10 as described in 3.2 - Dry Contact Ports.
___ 6. Verify that the UPS internal bypass breaker is in the open position with the guard in place and secure.
NOTEThis is the breaker located near the POD port.
NOTEThe two connectors should connect only one way, matching the color of the connectors.
NOTEDistribution PODs PD2-101, PD2-102, PD2-103, PD2-104, PD2-105, PD2-106 and PD2-107 should not be used if the UPS output voltage is set to 220/127V.
Installation
37 Liebert® APS™
Commissioning/Startup with AC Power Available (Normal Mode Operation)
___ 1. Verify that the upstream mains AC breaker is closed.
___ 2. Turn On the UPS Enable switch on the rear of the unit (it is protected by a clear plastic cover).
___ 3. Close the UPS input breaker: it is on the front of transformer-free frame systems and on the rear of transformer-based frame systems.
___ 4. Press the ON/OFF button on the LCD panel.
___ 5. When asked to confirm, press Enter (F5 button) to turn On the UPS.
___ 6. Close the UPS output breaker on the rear of the unit.
___ 7. If supplying power to an external distribution panel, close all breakers to provide power to the equipment. If using the integral distribution PODs on the UPS or MBC, ensure the individual POD breakers are closed.
Commissioning/Startup Without AC Power Available (Battery Mode Operation)
1. Check to ensure the upstream mains AC breaker is closed.2. Turn on the UPS “Enable” switch on the rear of the unit.3. Locate the “Battery Start” push button that is on either of the two control modules. Press and
hold this button for 5 seconds.
4. Close the output breaker on the rear of the Liebert APS.5. If supplying power to an external distribution panel, close all breakers to provide power to the
equipment. If using the integral distribution PODs on the UPS or MBC, verify that the individual POD breakers are closed.
6. Emerson recommends closing the UPS input breaker; it is on the front of transformer-free frame systems and on the rear of transformer-based frame systems. If AC mains becomes available, the UPS will revert to AC power mode and begin recharging the battery.
NOTEThis will begin the initial system checks and enable power to begin charging the battery
NOTEStarting the UPS system without AC power will discharge the batteries. If AC mains power is not restored before the batteries discharge, the USP will shutdown and power will be lost to the connected equipment. If the UPS reaches the battery EOD level and shuts down, AC mains power must be present to restart the UPS system.
NOTEThis will begin the initial system checks and automatically enable output power.
Communication
Liebert® APS™ 38
3.0 COMMUNICATION
The rear panel of the Liebert APS provides these communication ports:
• Liebert IntelliSlot® ports—3• Dry contact ports—1• REPO (Remote Emergency Power Off)—1• Long Run Time (LRT) Battery Temperature Probe Terminals—1• USB port—1
3.1 Liebert IntelliSlot PortsThe three Liebert IntelliSlot communication ports (see Figure 45) are used for installing communication options, including the Liebert IntelliSlot Unity card, dry contact card, Liebert MultiPort and Liebert IntelliSlot EBC card. The Liebert IntelliSlot ports and the USB port can be used at the same time.
Figure 45 Liebert IntelliSlot communication port location
Liebert IntelliSlot Unity Cards—IS-UNITY-LIFE, IS-UNITY-S, IS-UNITY-DP• IS-UNITY-LIFE: This card is standard in every Liebert APS. It is used for communication
between the Liebert APS UPS and Emerson’s Trellis® NMS and LIFE Services.• IS-UNITY-S: This optional card can be used instead of the standard card if communication to a
third party platform is required. Third-party platforms include SNMP or 485 (Modbus/Bacnet) protocols. This card would still be used for communication between the Liebert APS and Emerson’s Trellis NMS and LIFE Services. All communication protocols are active simultaneously.
• IS-UNITY-DP: This optional card can be used instead of the standard card if communication to two third-party platforms is required. Third-party platforms include SNMP and 485 (Modbus/Bacnet) protocols. This card would still be used for communication between the Liebert APS UPS and Emerson’s Trellis NMS and LIFE Services. All communication protocols are active simultaneously.
Liebert IntelliSlot
Ports
Liebert IntelliSlot Ports(with protective covers)
Communication
39 Liebert® APS™
Liebert IntelliSlot® Dry Contact Card (IS-RELAY)
Provides dry contact alarm information, including: On Battery, On Bypass, Low Battery, Summary Alarm, UPS Fault and On UPS signals for communication to a remote monitoring system or for use with Liebert MultiLink® software. This card also can accept input signals to shut down the UPS while it is in any mode of operation.
Liebert IntelliSlot MultiPort Card (IS-MULTIPORT)
Provides dry contact alarm information, including: On Battery, Low Battery signals for communication to four servers for use with Liebert MultiLink software.
Liebert IntelliSlot EBC Card
This card is used for the Liebert APS UPS to monitor and manage the intelligent battery modules in external matching battery cabinets.
3.2 Dry Contact Ports
The UPS provides dry contact ports. See Figure 1 for location and Figure 46 for the pin layout.
Figure 46 Pin layout of the dry contacts
Table 14 shows the pin definition of each dry contact port.
Battery Mode Dry Contact
Pins 1 and 2: Output dry contact, normally open. The dry contact is closed when the UPS is operating on battery. The maximum voltage and current are 24VDC and 0.3A, respectively.
Low Battery Dry Contact
Pins 3 and 4: Output dry contact, normally open. When the UPS is operating on battery, the dry contact is closed upon battery low voltage alarm. The maximum voltage and current are 24VDC and 0.3A, respectively.
Table 14 Pin definition of dry contact port
Position Name Description
1 Battery Mode Output dry contact of battery mode operation
2 Battery Mode Output dry contact of battery mode operation
3 Low Battery Output dry contact of low battery operation
4 Low Battery Output dry contact of low battery operation
5 Any Mode Shut Down Input dry contact of any mode shut down
6 GND Any mode shutdown GND
7 Battery Mode Shut Down Input dry contact of battery mode shut down
8 GND Battery mode shutdown GND
1
2
3
4
5
6
7
8
Communication
Liebert® APS™ 40
Any Mode Shut Down
Pins 5 and 6: Input dry contact, normally open. After the external dry contact is closed (shorted), the UPS output will be shut down during any mode of operation (mains, battery, bypass).
Battery Mode Shut Down
Pins 7 and 8: Input dry contact, normally open. After the external dry contact is closed (shorted), the UPS output will be shut down only during battery mode operation.
3.3 REPO (Remote Emergency Power Off)
The Liebert APS is equipped with a REPO (Remote Emergency Power Off) connection. Only the SELV (Safety Extra Low Voltage) circuit can be connected to the REPO terminal block. Figure 48 shows the REPO connection pin layout. See Table 15 for the pin definition.
Figure 47 REPO connector pin layout
Figure 47 shows the schematic diagram of REPO switch connections.
Figure 48 REPO switch connections
NOTEThe default for the Any Mode and Battery Mode Shutdown features is disabled. Using this function requires setting Remote Comms shutdown to Enabled in the Settings through the LCD. Additionally, the shutdown delay can be accessed in the LCD Settings to set the delay time for the UPS shutdown after the dry contact is closed. Enabling the feature on the LCD enables both shutdown methods.
Table 15 Pin definition of the REPO dry contact
Position Name Description
9 REPO +12V REPO power, 12VDC 100mA
10 REPO Coil -NO REPO normally open nodes, shorting pins 9 and 10, REPO is triggered
11 REPO Coil -NC REPO normally closed nodes (fail-safe), shorting pins 9, 10, 11, 12, and opening pins 11 and 12, REPO is triggered
12 GND GND
9
10
11
12
9 10 11 129 10 11 12 9 10 11 12
During Shipping For Normally Open System For Normally Closed System (fail-safe)
Communication
41 Liebert® APS™
NOTICERisk of improper installation. Can cause unintended UPS shutdown and loss of power to the load.Run signal cables separately from power cables. Running cables in the same conduit can cause signal noise, possibly causing the system to shut down.
3.4 Long Run Time (LRT) Battery Temperature Probe Terminals
The Liebert APS contains a temperature-compensated battery charging system. To use this feature with external LRT battery systems, Pins 13-16 of the contact terminal strip are used to connect a temperature sensor. See Figure 49 and Table 16 for the pin definition of the temperature sensor terminals.
Figure 49 Pin layout of the temperature sensor terminal
3.5 USB Port
The Liebert APS UPS contains a standard B type USB port on the rear of the unit to connect the UPS to a network server or other computer for monitoring using any operating system, built-in UPS support or in conjunction with Liebert MultiLink® software.
! WARNINGRisk of electrical shock. Can cause property damage, injury and death.
Operating the REPO circuit will NOT trip the manual bypass breaker. If the REPO must shut off UPS output under all circumstances, the user must tie the REPO into the breaker feeding the UPS source. Otherwise, voltage may be present on the output connections if the unit is in manual bypass.
NOTEA jumper is factory-installed between Pins 9 and 10 to disable the Main Control Switch. This will prevent the UPS from being started accidentally during shipment and installation. This jumper must be removed before the unit can be started.
If the installation does not require connection to a REPO system, the factory-installed jumper must be removed.
Table 16 Pin definition of the temperature sensor terminal
Position Name Description
13 Inside Battery Temperature Locate battery temperature signal close to the UPS
14 Battery Temperature +12V Battery temperature signal power supply
15 Outside Battery Temperature Locate battery temperature signal at UPS remote end
16 GND GND
13
14
15
16
Communication
Liebert® APS™ 42
3.6 Liebert MultiLink®
Liebert MultiLink monitors the UPS continuously and can shut down configured computers in the event of an extended power failure. Liebert MultiLink can also be configured to shut down the UPS. Liebert’s MultiLink can also be configured for use without the USB cable when the Liebert IntelliSlot® UNITY-S or UNITY-DP SNMP Card is installed in the UPS. An optional Liebert MultiLink License Kit permits shutting down the UPS over a network. For more information about the Liebert IntelliSlot SNMP Card, Liebert IntelliSlot Web Card and Liebert MultiLink license kits, visit http://multilink.liebert.com or contact your local Emerson representative.
3.7 LCD Port
The LCD module contains the LCD port, which is used for power and data communication between the UPS monitor module and display module. The LCD module can be removed from the Liebert APS and remotely located. A longer Ethernet cable must be used when installing the LCD module remotely. A standard Ethernet (Category 5, with RJ-45 connectors, both ends meet T568B standard) type cable can be used. Maximum cable length is 14 meters to ensure proper communication signals between the UPS and the LCD module.
The user interface module provides three network ports and one USB port. Of those, one network port (LCD port) is used for power supply and communication of the user interface module. Other network ports and the USB port are reserved for use only by customer service personnel.
Figure 50 LCD port
LCD Port
User InterfaceModule
Operation and Display Panel
43 Liebert® APS™
4.0 OPERATION AND DISPLAY PANEL
4.1 OverviewThis chapter describes the functions and operation of the UPS display panel. The LCD is composed of an LED mimic power flow diagram, fault LED indicator and LCD screen to show detailed operational information and UPS alarm list using the navigation buttons. For location and information about the display panel, refer to Figure 51 below
Figure 51 Operation and display panel
Mimic LEDsThe mimic power flow LEDs indicate current operating state of the UPS. The state descriptions of the LEDs are given in Table 17.
Table 17 LED descriptions
LED State Description
AC LED
On (Green) The rectifier is functioning normally
Flashing (Green) The AC mains is normal, but the rectifier is not functioning properly
On (Red) The rectifier is faulty
Off The AC mains is abnormal, and the rectifier is not functioning
Battery LED
On (Green) The battery is discharging
Flashing (Green) The battery has a pre-alarm of low voltage
On (Red) The DC-DC converter is faulty
Off The battery is charging, and the DC-DC converter is not functioning
Bypass LED
On (Green) The bypass is supplying power
On (Red) The bypass is abnormal and not available
Off The bypass is normal, but not supplying output power
Inverter LED
On (green) The inverter is supplying output power
Flashing (green) The inverter is starting up, in soft start or phase locked, and is not supplying output power
On (red) The inverter is faulty
Off The inverter is off
Output LED
On (green) The UPS output is supplying power
Flashing (green) The UPS internal manual bypass is supplying output power
On (red) The UPS has output overload
Off The UPS does not have output power
Fault LED
On (yellow) The UPS has an alarm or alarms
On (red) The UPS has one or more faults
Off UPS operating normally with no alarm or fault conditions
Inverter LED
Output LED
Fault LED
Bypass LED
Battery LED
On/Off button
Alarm Silence
Menu Buttons
LCD
AC LED
Operation and Display Panel
Liebert® APS™ 44
Audible Alarms
Three different audible alarms may occur during the UPS operation; see Table 18 for a description of the audible alarms.
Control Buttons
The operation and display panel provides two control buttons. See Table 19 for their function descriptions.
LCD and Menu Buttons
The operation and display panel provides an LCD screen and five menu buttons (F1, F2, F3, F4, F5). See Table 20 for the function description of each menu button.
The LCD is a 320 × 240 dot matrix graphic display. Through the LCD interface and the easily operated menu, you can browse the UPS input, output, load and battery parameters and obtain the current state and alarm information of the UPS. You also can perform relevant function/parameter settings and control operations.
Figure 52 User interface module layout
Table 18 Audible alarm descriptions
Alarm sound Meaning
One beep per second When the UPS has an alarm, for example, AC fault (mains failure)
One beep every 0.5 second Upon UPS output overload or low battery voltage alarm during discharge
Continuous beep When the UPS has a fault
Table 19 Control buttons functions
Control Button Function
ON/OFF Button Used to turn the UPS On and Off.
Alarm Silence ButtonWhen an audible alarm sounds, pressing this button can silence the alarm. Pressing this button again can restart the audible alarm.
Table 20 Function descriptions of menu button
Button F1 F2 F3 F4 F5
Function 1
HOME
—
To Left To Right Enter
Function 2 — ESC Exit
Up Down
—
Bypass LED Output LED LCD On/Off Button
AlarmSilenceButton
InverterLED
AC LED
BatteryLED
Fault LED
Operation and Display Panel
45 Liebert® APS™
4.2 LCD Screen
4.2.1 Startup Screen
When the UPS starts up, it will conduct a self-test, and the LCD will display the startup screen, which lasts for 15 seconds as shown in Figure 53.
Figure 53 Startup screen
4.2.2 Main Screen
The main screen is divided into four parts: system information window, data window, menu window and keyboard window, as shown in Figure 54.
Figure 54 Main screen
The functions of F1 ~ F5 buttons will change automatically according to the currently-displayed screen. On any screen, pressing the F1 button will return to the Output screen.
System Information Window
The system information window displays the current time and the UPS name without requiring user intervention. See Table 21 for the detailed description.
Table 21 Item description of system information window
Item Description
Liebert APS UPS name, representing Liebert APS
2012-01-0110: 45: 20
Current time (format: year-month-date)(format: 24 hours, h: m: s)
Liebert APS2013-03-223:22:00
L-N Voltage (V)L-N Current (A)Frequency (Hz)Power Factor
220.090.950.00.99
Mains
Information Window
Data Window
Menu Window
Keyboard Window
Operation and Display Panel
Liebert® APS™ 46
Menu Window and Data Window
The menu window shows the menu name and allows navigation to different menu items. Each menu item has a set of data that is displayed in the data window. Using the menu window, you can browse the relevant parameters of the UPS and can adjust/set some operational parameters. See Table 22 for the menu and data descriptions.
Table 22 Item description of menu window and data window
Menu Name Data Item Data Description
Mains
L-N Voltage (V) L-N input voltage
L-N Current (A) L-N input current
Frequency (Hz) Input frequency
L-L Voltage (V) L-L input voltage
kVA Input apparent power
Power Factor Input power factor
Battery
Batt Voltage (V) Battery bus voltage
Batt Current (A) Battery bus current
Runtime (Min.) Battery backup time remaining
Batt Capacity (%) Percentage of battery capacity
Batt State Charging, discharging or fully charged
Batt String Count Online battery string count
Batt Temp (°C) Battery temperature
Discharge Count Maximum historical discharge count within current battery modules
Discharge Time (H) Maximum historical discharge time within current battery modules
EBC Count Number of connected External Battery Cabinets
Output
L-N Voltage (V) L-N Output Voltage
L-N Current (A) L-N Output Current
Frequency (Hz) Output Frequency
Power Factor Output Power Factor
Line Voltage (V) L-L Output Voltage (not displayed for single-phase output model)
Load
kVA Output apparent power
kW Output active power
Load Level (%) Output loading, indicated in percentage of the UPS system rated load
Crest Factor Output current peak value factor
UPS Info
UPS ID UPS ID
LCD Module If the module is online, the serial number and software version will be displayed
Bypass Monitor Module
If the module is online, the serial number and software version will be displayed
Bypass Control Module
If the module is online, the serial number and software version will be displayed
Charger Module If the module is online, the serial number and software version will be displayed
Power ModuleIf the module is online, the serial number and software version will be displayed
Battery Module If the module is online, the serial number and software version will be displayed
Redundant State
PM Installed The number of installed power modules
PM Whether there are redundant power modules supplying power.
Operation and Display Panel
47 Liebert® APS™
Settings
Set Redundancy Mode
Disabled/ Enabled. If ‘Enabled,’ the system operational parameters will assume there is a redundant power module in the frame; if ‘Disabled’, the system operational parameters will assume that all power modules in the frame are not redundant. Note: This item is closely related to the ‘Redundant alarm’ setting
Remote Comms Shutdown
Disabled/ Enabled. If ‘Enabled,’ this allows the UPS output power to be shutdown through remote communication, including the dry contacts and Liebert IntelliSlot communication cards. Note: This item is closely related to ‘Remote shutdown delay’
Bypass Setting Enables the bypass to supply power or not
Output Frequency Sets the output frequency to allow frequency conversion operation
Output Voltage Sets the output voltage level to match the mains input voltage
Inverter Sync Range
Sets the range of inverter synchronization for bypass frequency operation and availability
Remote Shutdown Delay Sets the shutdown delay time for the remote signal operation
Bypass Upper Limit
Sets the upper limit of bypass voltage operation and availability
Bypass Lower Limit Sets the lower limit of bypass voltage operation and availability
Guaranteed Shutdown
Disabled/ Enabled. If ‘Enabled,’ once a low battery alarm is generated during a battery discharge, the UPS will continue battery mode operation until it reaches the end of discharge (EOD) setpoint, then will shutdown output power, whether the AC mains recovers or not.
Bypass Alarm Mode Allows an alarm to be generated when the bypass is abnormal
Set RS232 Protocol
Because the slot 2 and the serial port on the rear panel cannot work at the same time, you must select one of them to work. If ‘INTERFACE2’ is selected, the slot 2 can communicate; if ‘RS232’ is selected, the serial port can communicate.
Auto-Restart Mode Allows auto restart after a EOD shutdown and AC mains returns
Auto-Restart Capacity
Sets the battery capacity limit of auto restart feature. When AC mains power returns, the UPS will charge the battery to the specified battery capacity before enabling output power.
Auto-Restart DelaySets the delay time of auto restart feature. When AC mains power returns, the UPS will start a countdown timer based upon the setting before enabling output power.
Display Contrast Adjusts the contrast of LCD backlighting
Date and Time Sets date and time
Command Password
Users can change the command password to prevent unauthorized user from changing any user configurable settings. The default password is 1234567. Once the password is changed, the default password is no longer operational and users are then required to enter the new password to enter/change any ‘Settings’ or ‘Battery settings’. If the new password is forgotten, contact your local customer service center for steps to reset the password back to the factory default.
Max Load Alarm Sets a maximum load alarm. This item is closely related to ‘Max load threshold.’
Max Load Threshold
Sets the threshold of maximum load alarm. When the UPS loads exceed the threshold, and the maximum load alarm is enabled, an alarm will be generated.This item is closely related to ‘Max load alarm,’ for example, set this item to 5.0kVA, when the UPS loads exceed 5.0kVA, an alarm will be generated.
Redundant Alarm Mode
Allows alarm to be generated when the system loses redundant power module
Table 22 Item description of menu window and data window (continued)
Menu Name Data Item Data Description
Operation and Display Panel
Liebert® APS™ 48
Settings(continued)
Communication Address
Sets the UPS device address. This setting is only for the network card communication of newly emerging market.
Air Filter Reminder Set the reminder period of checking dust-proof filter
Air Filter Type Standard: Use this setting if air filter is not installed.Fine Dust: Use this setting if air filter is installed.
IT System Compatibility
Enabled - Neutral back-feed relay will open on battery modeDisabled (Default) - Neutral back-feed relay is always closed
UPS ID Users can set the UPS name to facilitate managing the UPS through remote communications
Company Name Set the local service company name of the UPS
Contact Number Set the local service telephone number of the UPS
Load factory defaults Restores the setting items in ‘Settings’ menu to factory values
Battery settings
Low battery Warning
Sets the battery low voltage alarm time
Automatic Battery Test Interval
Sets the interval for the automatic battery test. Intervals of 8, 12, 16, 20, 26 weeks or Disable are available for selection. Factory default is 8 weeks.
Auto Batt Test Start Day Sets the day of the week for the automatic battery test
Auto Batt Test Start Time Sets the time of the day for the automatic battery test
External Battery AH
Sets the AH capacity of external third party battery system to calculate the battery capacity and estimate the battery time remaining
Load Factory Defaults Restores the setting items in ‘Battery set’ menu to factory values
Language Language Options Provides a selection of seven languages: Chinese, English, French, Spanish, Italian, Russian and German
Alarms Current Alarms Displays the current alarms. See Table 25 for the UPS alarm list
Records Historical Alarms Displays all historical alarms. See Table 25 for the UPS alarm list
Module replacement
LCD Module Displays the procedures for replacing LCD module
Bypass Monitor Module
Displays the procedures for replacing system monitor module
Bypass Control Module Displays the procedures for replacing system control module
Power Module Displays the procedures for replacing power module
Battery Module Displays the procedures for replacing battery module
Charger Module Displays the procedures for replacing charger module
Table 22 Item description of menu window and data window (continued)
Menu Name Data Item Data Description
Operation and Display Panel
49 Liebert® APS™
Keyboard Window
For the functions of the menu buttons (F1 ~ F5) in the keyboard window, see Table 23
Service
Battery Maintenance Test
Battery maintenance test allows battery to discharge some voltage to obtain the battery activity. The loads must be within 0% ~ 90%, the battery capacity must be larger than 70%, and there is no battery fault and alarm in the system.
Stop Battery Test Stops battery maintenance test
System TestA UPS self-test, used to test whether the LEDs are normal. When you start this function, 5 seconds later, the screen will prompt a window to display the system self-test result.
Stop Testing Stops system test manually
Freshening Charge Boost charges the battery by force, manually
Stop Freshening Charge
Stops freshening charge manually
UPS IDAllows customer service personnel to set the UPS ID, to facilitate maintenance
Site ID Allows customer service personnel to set the UPS address, to facilitate maintenance
Tag Number Allows customer service personnel to set the UPS tag, to facilitate maintenance
Company NameAllows customer service personnel to set the UPS company name, to facilitate maintenance
Contact Number Allows customer service personnel to set the UPS company contact number, to facilitate maintenance
Frame S/N Reset this when replacing the LCD board. The frame S/N is labeled on the frame.
Normal ModeAllows customer service personnel to set the UPS operating mode to normal online mode
ECO Mode Allows customer service personnel to set the UPS operating mode to ECO mode
Enable Max Discharge Protection
By default, the UPS has a maximum discharge time to protect the batteries from a deep, slow discharge. After this time, the UPS will turn Off its output.
Disable Max Discharge Protection
If this variable is set, there will be no time limit and the UPS will stay on battery until the EOD setpoint is reached. This may cause damage to some battery types and should only be used for DC sources that do not have slow discharge issues.
The Service screen is only for customer service personnel; it is not open to the user.
Table 23 Function descriptions of menu buttons
Button F1 F2 F3 F4 F5
Function 1
HOME
—
To Left To Right Enter
Function 2 — ESC Exit
Up Down
—
Table 22 Item description of menu window and data window (continued)
Menu Name Data Item Data Description
Operation and Display Panel
Liebert® APS™ 50
4.2.3 Default Screen/Screen Saver
During the UPS operating process, if there are no active alarms, the LCD will go into a screen saver mode after 2 minutes of no user navigation activity. The default screen saver is shown in Figure 55. After a brief delay, the LCD backlight will also turn Off. Pressing any button will return to the original screen.
Figure 55 Default screen/screen saver
4.3 LCD Screen Views
This section gives a detailed description of each display screen and its contents. The default “main screen” is the Output menu and its data. The navigation indicated for each screen below is in reference to the Output screen.
4.3.1 AC Mains Screen
From the main screen, press the F3 button twice, until the AC mains screen is displayed, as shown in Figure 56.
Figure 56 Mains screen
The AC mains screen displays the input L-N voltage, L-N current, input frequency, L-L voltage, apparent power and power factor of three phases (L1, L2, L3).
L-N Voltage (V)L-N Current (A)Frequency (Hz)L-L Voltage (V)kVAPower Factor
Liebert APS2014-01-0110:45:20
▲
L1220.030.350.00380.06.671.00
L2220.030.350.00380.06.671.00
L3220.030.350.00380.06.671.00
Mains
Operation and Display Panel
51 Liebert® APS™
4.3.2 Battery Screen
From the main screen, press the F3 button once and the battery screen will be displayed, as shown in Figure 57.
Figure 57 Battery screens
On the first battery screen, pressing the F5 button will change the function of the F2, F3, and F4 buttons from the primary functions to the secondary functions, as shown above in Table 23.
The battery screen displays Battery voltage, Battery current, Battery time remaining, Battery capacity, Battery state, Battery string count, Battery temperature, cumulative discharge count (highest of all installed battery modules), cumulative discharge time (in hours) and External battery cabinet count.
4.3.3 Output Screen
The main screen is the output screen by default, as shown in Figure 58.
Figure 58 Output screen
The output screen displays L-N or L-L voltage, L-N or L-L current, Frequency and Power factor.
Battery
Liebert APS2014-01-0110:45:20
▲▲
Batt Temp ( )Discharge CountDischarge Time (H)EBC Count
25.03039.40
ESC
Battery
▲▲
Batt Voltage (V)Batt Current (A)Runtime (Min.)Batt Capacity (%)Batt StateBatt String Count
157.00.03407100Batt Full Charge0
Liebert APS2014-01-0110:45:20
▲
First Screen Second Screen
Liebert APS2013-03-223:22:00
L-N Voltage (V)L-N Current (A)Frequency (Hz)Power Factor
220.090.950.000.90
Output
Operation and Display Panel
Liebert® APS™ 52
4.3.4 Load Screen
From the main screen, press the F4 button once and the load screen will be displayed, as shown in Figure 59.
Figure 59 Load screen
The load screen displays output kVA (Sout/apparent power), output kW (Pout/active power), load level and crest factor.
4.3.5 UPS Information Screen
From the main screen, press the F4 button twice until the UPS info screen is displayed as shown in Figure 60)
Figure 60 UPS info screen
The UPS information screen displays UPS ID (name set by user), serial number and software version of LCD module, system monitor module, system control module, charger module, power module and battery module (if the modules are installed and are online).
kVAkWLoad Level (%)Crest factor
20.0018.00100.03.00
Liebert APS2014-01-0110:45:20
Load
▲▲
Operation and Display Panel
53 Liebert® APS™
4.3.6 Redundancy Screen
From the main screen, press the F4 button three times until the redundancy screen is displayed, as shown in Figure 61.
Figure 61 Redundancy screen
The redundant screen displays the number of installed power modules in the frame, and whether the system contains a redundant module or not.
PM InstalledPM
Redundant State
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5Redundant
Operation and Display Panel
Liebert® APS™ 54
4.3.7 Settings Screen
From the main screen, press the F4 button four times until the settings screen is displayed. The settings screen is displayed in a total of nine screens as you scroll down, as shown in Figure 62.
Figure 62 Settings screens
On the first settings screen, pressing the F5 button will prompt a password window to pop up. After you enter the correct password, the function of the F2, F3, and F4 buttons will switch from the primary functions to the secondary functions, as shown in Table 23.
4.4 Entering a Password1. On the password prompt window, press the F5 button, the first digit will become editable, press
the F3 button to enter the correct number.2. Press the F4 button, the second digit will become editable, press the F3 button to enter the correct
number.3. Enter the rest of the password digits using the same method in Step 2, and press the F5 button
when complete.
Set Redundancy ModeRemote Comms ShutdownBypass SettingOutput FrequencyOutput VoltageInverter Sync Range
Settings
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DisabledEnabledEnabled50Hz230± 5.0Hz
First Screen
Third Screen Fourth Screen
Remote Shutdown DelayBypass Upper LimitBypass Lower LimitGuaranteed ShutdownBypass Alarm ModeSet RS232 Protocol
Settings
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▲▲
2second+10%-15%DisabledEnabledINTERFACE2
ESC
Auto-Restart ModeAuto-Restart CapacityAuto-Restart DelayDisplay ContrastDate & TimeCommand Password
Settings
Liebert APS2014-01-0110:45:20
▲▲
Enabled20%12second
*******2014-01-01 10:45:20
ESC
Max Load AlarmMax Load ThresholdRedundant Alarm ModeCommunication AddressAir Filter ReminderAir Filter Type
Settings
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▲▲
Disabled0.0kVADisabled1DisabledStandard
Second Screen
IT System Compatibility UPS IDCompany NameContact NumberLoad Factory Default
Settings
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▲▲
No
Disabled
Fifth Screen
Operation and Display Panel
55 Liebert® APS™
4.5 Setting or Changing a Parameter Setting1. Press the F4 button to navigate to the parameter to be set, and press the F5 button to enter the
edit mode.2. Press the F3 or F4 button to select the setting item or change the setting value, then press the F5
button to confirm the setting. Press the F2 button to exit the edit setting mode.
Operation and Display Panel
Liebert® APS™ 56
4.5.1 Battery Setting Screen
From the main screen, press the F4 button five times until the battery settings screen is displayed, as shown in Figure 63.
Figure 63 Battery settings screen
On the first settings screen, pressing the F5 button will prompt a password window to pop up. After you enter the correct password, the function of the F2, F3, and F4 buttons will switch from the primary functions to the secondary functions as shown above in Table 23. Refer to the notes listed above in section 4.3.7 for entering the password and making changes to the battery setting parameters.
4.5.2 Language Selection Screen
From the main screen, press the F4 button six times until the language screen is displayed, as shown in Figure 64.
Figure 64 Language selection screen
The language selection screen displays a choice from seven languages: Chinese, English, German, Russian, French, Italian and Spanish.
To set the language:
1. Press the F5 button, the language option is highlighted.2. Press the F3 or F4 button to navigate to the desired language.3. Press the F5 button to confirm the selection. Once the screen language changes, press the F2
button to exit the language setting mode.
NOTEThe languages are displayed in their alphabet.
Low Battery WarningAuto Batt Test IntervalAuto Batt Test Start DayAuto Batt Test Start TimeExternal Battery AHLoad Factory Defaults
Battery Set
Liebert APS2014-01-0110:45:20
2MinDisabledSunday06:000AHNO
Operation and Display Panel
57 Liebert® APS™
4.5.3 Alarms Screen
From the main screen, press the F4 button seven times until the alarms screen is displayed, as shown in Figure 65.
Figure 65 Alarms screen
The alarms screen displays any current alarms of the UPS, including the alarm name, alarm ID code and alarm date/time stamp.
4.5.4 Records Screen
From the main screen, press the F4 button eight times until the records screen is displayed, as shown in Figure 66.
Figure 66 Records screen
The records screen displays all historical alarms of the UPS, including the alarm name, alarm ID code, alarm date/time stamp and record number/total record count.
Operation and Display Panel
Liebert® APS™ 58
4.5.5 Module Replacement Screen
From the main screen, press the F4 button nine times until the module replacement screen is displayed, as shown in Figure 67.
Figure 67 Module replacement screen
The module replacement screen displays the procedures for replacing all user replaceable module assemblies in the UPS frame.
To view the procedure, press the F5 button to enter the module replacement. One module option is highlighted. Press the F3 or F4 button to navigate to the specific module procedures, and then press the F5 button to view the procedures. Once completed, press the F2 button to exit.
4.5.6 Prompt Window
During system operation, occasionally the UPS system needs to alert or remind the user of alarm notifications or require the user to confirm a command or perform other operations. When this occurs, a prompt window will pop up, as shown in Figure 68. Refer to Table 23 below for possible prompts and the descriptions/actions to be taken.
Figure 68 Example of prompt window
1. Remove larger plastic bezel2. Lift up on the LCD module3. Swap the LCD module4.Install the new LCD module5. Replace larger plastic bezel
Module Replacement
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LCD BoardBypass Monitor BoardBypass Control BoardPower ModuleBattery ModuleCharger Module
Module Replacement
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▲
Module Replacement Screen LCD Board Replacement Procedures
Operation and Display Panel
59 Liebert® APS™
Table 24 Information and actions required for the prompt window
Prompt Window Explanation
Turn On/Off:Turn On UPSCancel
When you press the ON/OFF-button while UPS is Off.
Turn On/Off:Turn On INVTurn Off UPS
When you press the ON/OFF-button while UPS is operating on bypass mode.
Turn On/Off:Transfer to BypassCancel
When you press the ON/OFF-button while UPS is operating on inverter mode and bypass is qualified.
Turn On/Off:Turn Off UPSCancel
When you press the ON/OFF-button while UPS is operating on inverter mode and bypass is not qualified.
Enter password*******
After the control password is changed, you are required to enter the password when you want to enter “Settings,” “Battery set” and “Service” screens.
Output must be OffWhile the UPS output is supplying power, this prompt appears when you want to set some key system parameters. You need to close the output before setting key parameters.
On manual bypasscan't turn Off the load
This prompt appears when UPS operates on manual bypass and the ON/OFF button is pressed.
Please verify output settings before starting the UPSEscape: Ignore this messageEnter: Go to Settings Screen
After the UPS is powered on, When you press the ON/OFF button for the first time, this prompt appears to remind you of viewing relevant setting.
Short Circuit Recovery After the UPS output short circuits, wait 30 seconds before turning On the UPS again.
System is not ready When the power modules in the frame is initializing or there are no power modules, this prompt appears when you press the ON/OFF button.
AC input not qualified,cannot start UPS
When the input voltage cannot meet the startup condition of the inverter, this prompt appears when you press the ON/OFF button.
Please check air filter When you set “Enabled” for “Air filter reminder,” this prompt appears after the reminder time is up.
Removal of module will resultin loss of output power
When only one of the system monitor module OR system control module is installed and active, when the locking level is moved to the unlock position, this prompt appears to remind user of loss of output power will occur if the module is removed from the system.
New Alarms Present
Escape: Ignore this messageEnter: Go to Alarms Screen
This prompt appears when a new alarm occurs.
Warning! Frame Fan Fault
Reduce load or replace fanto avoid damage to bypass
This prompt appears when frame fan is in fault and load is heavy, user should reduce load or replace fan
Bypass source not qualifiedCan not switch to bypass
This prompt appears when bypass source is not qualified and inverter can’t power on the load for transformer based frame
Troubleshooting
Liebert® APS™ 60
5.0 TROUBLESHOOTING
This chapter provides the basic troubleshooting guide and required actions for maintaining the Liebert APS system.
5.1 Active Alarms
In the event of an alarm, the User Interface LCD will display the latest alarm message. A list of possible alarm messages are displayed in Table 25. If an alarm occurs and you are uncertain of the corrective action to take, contact your local Liebert Services representative.
Table 25 Alarm message list
Alarm Message Possible Cause Corrective Action
Power Module WarningOne or more power modules is not operating correctly.
View the corresponding module serial number in the fault logs or event logs and contact your local Liebert Services representative.
Power Module Fail One or more power modules has a fault.
View the corresponding module serial number in the fault logs or event logs and either replace the module or contact your local Liebert Services representative.
Power ModuleOver Temp Warning
One or more power modules is operating at an internal high temperature.
Check the air filters located behind the bezels and clean if necessary, or check to see if the ambient temperature is too high. If these conditions do not exist, contact your local Liebert Services personnel.
Power ModuleOver Temp Shutdown
One or more power modules has stopped operating due to an internal over temperature.
Check the air filters located behind the bezels and clean if necessary, or check to see if the ambient temperature is too high. If these conditions do not exist, contact your local Liebert Services representative.
Power Module Fan Failure One or more of the power module fans has failed.
Check to see if the fan is blocked. If not, contact your local Liebert Services representative.
Insufficient Capacity To Start Inverter
The load value exceeds the maximum load capacity of all operating modules.
Ensure all power modules are inserted and the locking lever is fully inserted. If all modules are active, add power modules to increase capacity or contact your local Liebert Services representative.
PM Locking Lever In Remove Position
The power module locking lever is not in the locked position.
Check the locking lever to ensure it is fully inserted. If so, contact your local Liebert Services representative.
Input Phase A Not Qualified A-phase voltage is too high or too low.
Check the upstream feeder breaker or the UPS input breaker and reset if necessary, or contact your local Liebert Services representative.
Input Phase B Not Qualified B-phase voltage is too high or too low.
Check the upstream feeder breaker or the UPS input breaker and reset if necessary, or contact your local Liebert Services representative.
Input Phase C Not QualifiedC-phase voltage is too high or too low.
Check the upstream feeder breaker or the UPS input breaker and reset if necessary or contact your local Liebert Services representative.
L1L2 Phase Reversed Two phases are reversely connected.
Have a qualified electrician check the phase rotation at the distribution panel and/or at the UPS input terminal block. If this is not the problem, contact your local Liebert Services representative.
Troubleshooting
61 Liebert® APS™
Battery Reversed The battery is reversely connected.
Have a qualified electrician check the wiring rotation at the external battery cabinet. If this is not the problem, contact your local Liebert Services representative.
No Battery Modules Are Ready
The battery module is not ready, and the yellow fault LED flashes.
Ensure that the battery module is fully inserted and locking levers are in the locked position. If this is not the problem, contact your local Liebert Services representative.
All PM’s Are Not Ready The power module is not ready, and the yellow fault LED flashes.
Ensure that the power module is fully inserted in the upper frame bays and locking levers are in the locked position. If this is not the problem, contact your local Liebert Services representative.
Power Module Redundancy Alarm
The UPS has no redundant power module
Add power modules or replace the faulty power module to obtain redundancy, or contact your local Liebert Services representative.
Output Exceeds Max Load Setting
The maximum load alarm is effective, the actual load is larger than the setting
Either decrease load on the UPS or readjust the user programmable alarm set point from the LCD. It might also require another power module to increase capacity. If this is not the problem, contact your local Liebert Services representative.
Turn Rocker Switch Off Before Removing
The bypass power is unqualified or the system output is disconnected. There is only one system monitor module or one system control module in the system, and the control lever is removed. The alarm reminds you to open the startup switch before pulling out the control module.
Open the startup switch.
Time to Check the Fan Filters for Excessive Dirt
When the air filter reminder is ‘Enabled,’ this message appears to remind users to check the air filters.
Check the air filters and clean them if necessary, or contact your local Liebert Services representative.
No Matching Module Only one battery module is inserted into one layer of bays in the system.
Ensure that there are a pair of battery modules in the same layer of the frame, or contact your local Liebert Services representative.
Load Exceeds Battery Module Capacity
The system has determined the load exceeds the capacity of the battery.
Check to ensure that all battery modules are fully inserted and the locking lever is in the locked position. It is possible that more battery modules are required to increase battery run time. If this is not the problem, contact your local Liebert Services representative.
Battery Cabinet Not Connected
The power cable of the external battery cabinet is not connected or fully inserted.
Connect the cable or contact your local Liebert Services representative.
BM Lock Lever in Remove Position
The locking lever is not in the locked position.
Check the locking lever to ensure it is fully inserted. If so, contact your local Liebert Services representative.
BM Over Temperature Warning
The internal battery module temperature is at an elevated level.
Check the air filters located behind the bezels and clean if necessary, or check to see if the ambient temperature is too high. If this is not the problem, contact your local Liebert Services representative.
Table 25 Alarm message list (continued)
Alarm Message Possible Cause Corrective Action
Troubleshooting
Liebert® APS™ 62
Low Battery WarningThe battery capacity has reached the user programmable set point.
Check upstream feeder breaker or the UPS input breaker and reset if necessary.If this is not the problem, begin the orderly shutdown of all connected equipment as UPS shutdown is imminent.
Battery Module Warning One or more battery modules is abnormal.
View the corresponding module serial number in the fault logs or event logs and contact your local Liebert Services representative.
Battery Module FailOne or more battery modules has a fault.
View the corresponding module serial number in the fault logs or event logs and either replace the module or contact your local Liebert Services representative.
Battery Test Warning Weak Battery
One or more battery modules has detected batteries that are no longer in specification due to age or operating conditions.
Replace the battery string or contact your local Liebert Services representative.
BM Temp Unbalance The temperature difference between all the battery modules exceeds 10°C.
Check the air filters located behind the bezels and clean if necessary, or check to see if the ambient temperature is too high. If this is not the problem, contact your local Liebert representative.
Frame Fan Failure The fan located behind the display panel has failed.
Contact your local Liebert Services representative for fan replacement.
Transformer Fan FailureThere is a transformer on the UPS frame and at least one transformer fan has failed.
Contact your local Liebert Services representative for fan replacement.
Transformer Temperature Warning
A high temperature condition has occurred in the output transformer area.
Check the air filters located behind the bezels and clean if necessary, or check to see if the ambient temperature is too high. If this is not the problem, contact your local Liebert Services representative.
Bypass Source Not Qualified
The UPS bypass functionality is not available because the input source is out of tolerance to the bypass voltage and/or frequency window.
No action necessary unless the AC input has been verified within bypass settings. If this is not the problem, contact your local Liebert Services representative.
Output Is OffAbnormal Output Volt The cable connection is wrong. Check the power distribution.
System Control Module Lock Lever in Remove Position
The locking lever is not in the locked position.
Check the locking lever to ensure it is fully inserted. If so, contact your local Liebert Services representative.
System Monitor Module Lock Lever in Remove Position
The locking lever is not in the locked position.
Check the locking lever to ensure it is fully inserted. If so, contact your local Liebert Services representative.
Charger Module Warning The charger module is not operating correctly.
View the corresponding module serial number in the fault logs or event logs, and contact your local Liebert Services representative.
Charger Module Fail The charger module has a fault.
View the corresponding module serial number in the fault logs or event logs, and either replace the module or contact your local Liebert Services representative.
CM Power source Is Not Qualified Check the power distribution.
Check upstream feeder breaker or the UPS input breaker and reset if necessary, or contact your local Liebert Services representative
Table 25 Alarm message list (continued)
Alarm Message Possible Cause Corrective Action
Troubleshooting
63 Liebert® APS™
5.2 Module TroubleshootingThe power, battery, charger, system control and system monitor module have two LEDs each to indicate the module operating state. Figure 69 shows the location of these LEDs; the meaning of the LED indicators is detailed in Table 26.
Figure 69 Module LED location
Charger Module LOCK Lever in Remove Position
The locking lever is not in the locked position.
Check the locking lever to ensure it is fully inserted. If so, contact your local Liebert Services representative.
Charger Module Fan FailureOne or more of the charger module fans has failed.
Check to see if the fan is blocked. If not, contact your local Liebert Services representative.
Charger Module Temperature Warning
One or more charger modules is operating at an internal high temperature.
Check the air filters located behind the bezels and clean if necessary, or check to see if the ambient temperature is too high. If this is not the problem, contact your local Liebert Services representative.
Table 26 Descriptions of module LEDs
Green Status LED Yellow Fault LED Descriptions of Module State
Off Off The module is not inserted into the frame, lock lever is in unlocked position or the system is off
Off On The module is initializing (maximum 30 seconds 1)
Flashing Off The module is operating normally
Flashing Flashing The module is in startup mode or the module has an alarm 2
Flashing On The module is faulty and off-line, and the control module is operating
Off Flashing
The module is not operating correctly, re-insert the module. If this persists, contact technical support personnel.
On Off
On On
On Flashing1. If this condition persists for more than 30 seconds, verify that the lock lever is in the locked position; if it is not, the module is
faulty.2. If both green and yellow LEDs are flashing for more than 30 seconds, reinsert module.
Table 25 Alarm message list (continued)
Alarm Message Possible Cause Corrective Action
Power Module
System Control Moduleand System Monitor Module
Green Status LED
Yellow FaultLED
Green Status LED
Yellow Fault LED
Green Status LED
Yellow Fault LED
BatteryModule
Troubleshooting
Liebert® APS™ 64
5.3 Module Replacement
Follow the instructions below when replacing or adding a system control, system monitor, power, battery, or charger module. Contact your local Liebert representative if you need to purchase additional modules to expand your system or contact authorized your Liebert Services representative for replacement modules.
5.3.1 Removing Modules1. Remove bezel cover to locate the faulty module. The yellow fault LED will be illuminated on the
faulty module.
2. The method for removing a module varies depending on the module type. The two methods are as follows:
• When removing a power, battery or charger module, use a Phillips screwdriver to remove the fastener (if installed). Then pull out the lock lever slightly and lift up to unlock the module.
• When removing a system control or system monitor module, use a Phillips screwdriver to remove the two screws from the securing holes on each end. Then pull out the lock lever slightly and slide it to the left to unlock the module.
Figure 70 Lever and fastener
3. To pull out a power, charger or battery module:a. When removing a power module, charger module or battery module: slide it 2/3 of the way out.
It will be stopped by the safety catch.b. Lift the module up slightly while continuing to pull it out as shown in Figure 71.c. Support the module and slide it completely out of the unit.d. When removing a system control or a system monitor module, there is no safety catch because
the modules are lightweight.
NOTEWhen removing bezels from a transformer-based UPS, note which have filters and replace them accordingly. Bezels from the modules will have air filters. There will be no filters on the bottom three transformer bezels. The transformer has a separate air filter.
For module removal, after unlocking the lever, wait a few seconds to remove the module.
If your system does not contain a redundant module, you may need to manually place the UPS into manual bypass before removing modules to avoid accidental loss of output power for the connected equipment.
Power Module System Control Module or System Monitor Module
Locking Lever
Fastener
Securing Hole
Locking Lever
Troubleshooting
65 Liebert® APS™
Figure 71 Pull out a battery module, a power module or a charge module
! WARNINGRisk of heavy unit falling over. Can cause equipment damage, injury or death.
Read all of the instructions before attempting to move the unit, lift it, remove packaging or prepare the unit for installation.
The UPS presents a tipping hazard. Do not remove more than one module at a time. Failure to do so may cause unit to tip over and cause serious injury.
Step 3
Step 3
Step 3
Troubleshooting
Liebert® APS™ 66
5.3.2 Replacing the User Interface Module1. Remove the display bezel on top of the frame.2. Lift up the user interface module, and put it on top of the UPS frame.3. Disconnect the network cable from the user interface module. 4. Connect the network cable to the new user interface module.5. Insert the new user interface module into the clips and replace the display bezel.
Figure 72 Replacing the user interface module
Display Bezel
User InterfaceModule
Maintenance
67 Liebert® APS™
6.0 MAINTENANCE
This chapter describes the routine maintenance for the Liebert APS UPS, including proper care, scheduled maintenance and procedures for cleaning fan filters.
6.1 Proper CareProper maintenance of the UPS is imperative to optimal performance and life of the unit. Emerson recommends that a certified technician perform preventive and corrective maintenance. Emerson Network Power Liebert Services is dedicated to ensuring the highest level of performance and unmatched support for your UPS. Contact your local Liebert representative for service.
6.2 Scheduled MaintenanceEmerson recommends performing the following maintenance at least monthly:
• Clean unit.• Clean or replace filters.• Verify proper airflow.
Emerson recommends performing the following maintenance annually:• Verify that all power modules are operating properly.• Verify that all battery modules are operating properly.• Verify redundancy (if applicable).
6.3 Cleaning Fan FiltersThe intake fans contain filters that will need to be replaced or cleaned periodically, depending on the surrounding environment. Check filters; replace if they are very dirty or damaged.To clean filters, either use a vacuum to remove the dirt and dust or rinse out the filters under running water (with the dirt side down) to remove dirt and dust. Blot the filters dry with a towel and allow air-drying before reinstalling it.
6.3.1 Top Filter1. Remove the display bezel.2. Remove the user interface module, and lay it on top of the UPS frame.3. Remove the two screws on the LCD mounting plate 4. Remove the screw in the middle of the filter assembly, remove the filter, as shown in Figure 73,
and clean the filters as described above.5. Replace the filter, mounting plate, user interface module and display bezel.
Figure 73 Replace/clean the top filter
Filter
Screw,1 Place
Maintenance
Liebert® APS™ 68
6.3.2 Bezel Filter1. Remove the bezel from the frame.2. Remove the filter assembly from the bezel, as shown in Figure 74, and clean the filters as
described above.3. Restore the filter and small plastic bezel of the frame.
Figure 74 Replace/clean the bezel filter
6.3.3 Bottom Fan Filter—Transformer-Based Frames Only1. Remove the three lower bezels at the bottom of the frame.2. Remove the screws and take out the filter, as shown in Figure 75, and clean the filters as
described above.3. Replace the filter and bezels.
Figure 75 Replace/clean the bottom fan filter
Bottom Fan Filters
Specifications
69 Liebert® APS™
7.0 SPECIFICATIONS
Table 27 Liebert APS specifications
Unit Size, Type
10 Bay 16 Bay 12 Bay 16 Bay 10 Bay 16 Bay
No Transformer Transformer-basedNo Transformer
Dual Inverter
Frame Rating, kVA/kW 15/13.5 20/18 15/13.5 20/18 15/13.5 20/18
General & Environmental
Conducted and RadiatedEMC Levels IEC/EN/AS 62040-2 Cat 2, CISPR22 Class A, FCC Part 15 Class A
Compliant Safety Standards IEC/EN/AS 62040-1:2008,UL 1778 4th Ed and CSA 22.2 No. 107.3
UL 1778 4th Ed andCSA 22.2 No. 107.3
Compliant ImmunityStandards IEC/EN/AS 61000-4-2, 3, 4, 5, 6
Transportation Individual packaged modules meet ISTA-1A / 1B; the complete system meets ISTA-1E
UPS Classification Accordingto IEC EN 62040-3 VFI-SS-111
Environmental WEEE and ROHS2 (6 by 6), REACH Compliant
Protection DegreeIEC60529
IP 20
Color RAL 7021
Dimensions, W x D x H, mm (in)
440 x 800 x 695(17x32x27)
440x850x970(17x34x38)
440x800x1060(17x32x42)
440x850x1240(17x34x49)
440x800x695(17x32x27)
440x850x970(17x34x38)
Weight, kg (lb)
Unit Weight(empty frame) 127 (280) 145.1 (320) 231.3 (510) 244.9 (540) 127 (280) 145.1 (320)
Shipping Weight(empty frame) 145.1 (320) 163.3 (360) 249.5 (550) 263.1 (580) 145.1 (320) 163.3 (360)
Unit Weight(frame rating populated) 256.3 (565) 317.5 (700) 360.6 (795) 417.3 (920) 256.3 (565) 317.5 (700)
Shipping Weight(frame rating populated) 274.4 (605) 335.7 (740) 378.7 (835) 435.4 (960) 274.4 (605) 335.7 (740)
Environmental
Operating Temperature,°C (°F) 0 - 40 (32 - 104)
Relative Humidity, % 0 - 95%, non-condensing
Altitude, m (ft) 3000 (10000) @ 25°C (77°F)
Efficiency (AC-AC), % 91.8-92.0 91.6-92.0 88.5-89.9 88.6-89.7 90.4-91.0 90.0-91.0
Nominal Heat DissipationBTU/Hr (maximum) 4208 5747 5528 7965 4904 6768
Acoustic Noise Level, dBA < 55dB (< 50% load), < 65dB (51-100% load) @ 1 meter
Input Data
Nominal Input Voltage,VAC
200/208/220/230/240; Single-Phase 200/100, 220/110, 230/115, 240/120, 254/127, 208/120, 173/100, 190/110, 200/115,
220/127; Two-Phase380/400/415; Three-Phase — —
Input Voltage Range,VAC The input voltage range based on the output loading, refer to Table 28
Power Factor, CosSingle-Phase Input, > 0.99;Three-phase Input, > 0.95 Single-Phase Input, > 0.99
Input Frequency, Nominal,Hz 50/60
Input CurrentDistortion, THDi < 5%
Input Frequency Range, Hz 40 to 70 auto-sensing
Specifications
Liebert® APS™ 70
Battery Module
Lead-Acid BatteriesPer String, Pieces 12
Battery Cells Per String,Pieces
72
Battery Capacity, W 36W @ 15min-rate to 1.67V per cell @25°C (77°F)
Backup Time, Minutes,Full Load 5 (for non-redundant system which has equal number of battery strings and power modules)
Maximum Charge Current(Full, Load)
Power module internal charger: 1.8ACharger module: 10A
Nominal Voltage, VDC 144
Recharge Time, Hr < 5 to 90% capacity (PM internal charger with 1:1 ratio of PM to Battery Strings)
Output Data
Output Voltage, VAC 200/208/220/230/240Single-Phase
100/100/173/200110/110/190/220115/115/199/230120/120/208/240
Single-Phase
200/100, 220/110, 230/115, 240/120, 254/127, 208/120, 173/100, 190/110, 200/115,
220/127; Two-Phase
Voltage Regulation, % ±3
Voltage Stability(100% Step Load), %
±7
Voltage Recovery Time, ms ≤ 60
Voltage Distortion, %≤ 3, linear load
≤ 5, non-linear load ≤ 7, non-linear load ≤ 5, non-linear load
Output Frequency, Hz 50/60
Output OverloadCapability, %
< 104% continuous
105% - 130% for 1 min
131% - 150% for 10 sec
151% - 200% for 1 sec
> 201% for 250 msec
Table 28 Rated input voltage range (Unit: VAC)
System Configuration % UPS Load Low Limit Value High Limit Value
Dual-InverterConfigured to 120
or 127 VAC per Phase
>100% 98 ±3.1
139.5 ±3.1
90% ~ 100% 89 ±3.1 ~ 98 ±3.1
70% ~ 90% 74 ±3.1 ~ 89 ±3.1
30% ~ 70% 60.5 ±3.1 ~ 74 ±3.1
<30% 60.5 ±3.1
Dual-InverterConfigured to 100,
110 or 115 VAC per Phase
>100% 84 ±3.1
90% ~ 100% 80 ±3.1 ~ 84 ±3.1
70%~90% 72 ±3.1 ~ 80 ±3.1
40%~70% 60 ±3.1 ~ 72 ±3.1
<40% 60 ±3.1
Single-InverterTransformer-Based and
Transformer-Free
> 100% 170 ±5
280 ±5
90 ~ 100% 160 ±5 ~ 170 ±5
70 ~ 90% 140 ±5 ~ 160 ±5
50 ~ 70% 120 ±5 ~ 140 ±5
< 50% 120 ±5
Table 27 Liebert APS specifications (continued)
Unit Size, Type
10 Bay 16 Bay 12 Bay 16 Bay 10 Bay 16 Bay
No Transformer Transformer-basedNo Transformer
Dual Inverter
Frame Rating, kVA/kW 15/13.5 20/18 15/13.5 20/18 15/13.5 20/18
Specifications
71 Liebert® APS™
Table 29 Liebert APS external battery cabinet specifications
Parameters AS7EBCNCC1BX000
General and Environmental
Conducted and Radiated EMC Levels IEC/EN/AS 62040-2—Class A, FCC Part 15 (Class A)
Safety Standards IEC/EN/AS 62040-1:2008, UL 1778 4th Ed and CSA 22.2 No. 107.3
Immunity Standards IEC/EN/AS 61000-4-2, 3, 4, 5, 6
Transportation ISTA-1E
Dimensions, WxDxH17x28x38
(440x712x970)
Unit Weight, lb (kg) 147.7 (67)
Shipping Weight, lb (kg) 209.4 (95)
Environmental
Operating Temperature °F (°C) 32 to 104 (0 to 40)
Storage Temperature, °F (°C) Without battery: -4 to 140 (-20 to 60)With battery: 5 to 104 (-15 to 40)
Relative Humidity, % 0 - 95%, non-condensing
Altitude, ft. (m) 10000 (3000)
Battery Module *
Lead-Acid Batteries (Per String) 12
Backup Time (Full Load), Minutes See Estimated Battery Run Times, 7.1 through 7.5
* Up to four external battery cabinets can be connected to each UPS frame and each external battery cabinet can be configured with up to seven strings of batteries.
Specifications
Liebert® APS™ 72
7.1 Estimated Battery Run Times
7.1.1 Tables for UPS Where Model Number Digits 1-3 are AS1 or ASATa
ble
30
10-
bay
, s
ing
le-p
has
e, n
o t
ran
sfo
rme
r u
nit
Ty
pe
N (
& U
PS
mo
del
nu
mb
er
dig
it 6
= N
)
UP
SR
ati
ng
Lo
ad
L
ev
el
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
2
5 k
VA
/4
.5 k
W
100
%5
1626
3948
6376
931
051
201
301
391
461
521
571
621
661
861
962
042
122
202
263
043
103
153
203
243
283
323
363
39
90%
618
3044
5272
901
041
201
311
401
481
541
601
651
841
952
042
132
213
003
073
133
183
233
283
323
363
403
433
464
22
80%
821
3648
6681
102
120
132
142
150
157
163
180
193
204
214
223
303
310
316
322
327
332
336
341
344
420
423
426
429
432
70%
925
4253
771
001
201
341
441
531
601
661
912
042
152
253
053
133
203
263
323
373
413
464
214
254
284
324
344
374
404
42
60%
1128
4871
961
131
351
471
561
641
872
022
152
263
083
173
243
313
373
423
474
234
274
314
344
374
404
434
454
484
504
52
50%
1538
6090
112
136
150
160
181
200
216
301
312
321
329
336
343
420
425
430
434
438
441
444
447
450
452
454
456
458
460
462
40%
1947
7811
013
81
541
651
972
163
043
163
273
363
444
224
284
334
384
424
464
494
524
554
574
604
624
644
664
674
804
804
80
30%
2766
108
142
160
192
217
309
324
336
345
426
432
438
444
448
452
456
459
462
464
466
480
480
480
480
480
480
480
480
480
480
20%
4410
414
818
522
23
193
374
224
324
414
484
534
584
624
664
804
804
804
804
804
804
804
804
804
804
804
804
804
804
804
804
80
10%
9916
631
234
543
74
504
594
664
804
804
804
804
804
804
804
804
804
804
804
804
804
804
804
804
804
804
804
804
804
804
804
80
10 k
VA
/9
kW
100
%-
510
1621
2633
3944
4852
6370
7681
9399
105
110
120
126
131
135
139
143
146
149
152
155
157
160
162
90%
-6
1218
2330
3844
4852
6472
7890
971
031
091
201
261
311
361
401
441
481
511
541
571
601
621
651
671
83
80%
-8
1421
2736
4348
5266
7481
941
021
081
201
261
321
381
421
461
501
541
571
601
631
651
801
871
931
992
04
70%
-9
1725
3342
4853
6977
911
001
071
201
271
341
401
451
491
531
571
601
641
661
841
911
982
042
102
152
202
25
60%
-11
2028
4148
5371
8197
106
113
128
135
142
147
152
157
161
164
167
188
196
203
210
216
222
227
304
309
313
317
50%
-15
2638
4861
7592
103
113
129
137
145
151
156
161
165
183
193
202
210
217
224
302
308
313
318
322
327
331
334
338
40%
-20
3447
6479
991
111
291
401
481
551
611
661
881
992
092
182
263
063
123
183
243
293
333
373
413
454
204
244
274
29
30%
-27
4667
911
091
301
431
531
611
671
942
082
203
023
113
183
253
323
373
423
474
234
274
304
344
374
404
424
454
474
49
20%
-44
7310
513
31
491
611
862
072
233
093
203
303
383
454
234
284
334
384
414
454
484
514
544
564
594
614
634
644
664
804
80
10%
-99
144
166
213
312
331
345
428
436
444
450
455
459
463
466
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
15 k
VA
/13
.5 k
W
100
%-
-5
812
1619
2226
3035
3943
4648
5153
6368
7276
8083
9397
101
105
108
111
120
124
-
90%
--
610
1418
2226
3035
4044
4750
5261
6772
7680
9095
991
031
071
101
201
241
271
311
34-
80%
--
812
1621
2630
3641
4548
5160
6672
7781
9197
102
106
110
120
124
128
132
136
139
142
145
-
70%
--
914
1925
3037
4246
5053
6572
7782
941
001
051
091
201
251
291
341
381
411
451
481
511
531
56-
60%
--
1118
2328
3743
4852
6471
7883
971
031
091
131
251
311
351
401
441
471
511
541
571
591
621
641
66-
50%
--
1522
2838
4550
6171
7992
100
107
113
126
132
137
142
147
151
155
158
161
164
166
183
190
196
202
208
-
40%
--
2028
4047
5369
7994
104
111
126
133
140
145
151
155
159
163
166
184
192
199
206
213
219
224
301
306
310
-
30%
--
2741
5067
8098
109
125
135
143
150
156
161
165
184
194
204
212
220
227
305
311
316
321
325
330
334
337
341
-
20%
--
4463
811
051
251
391
491
571
641
862
002
122
233
043
133
203
263
323
373
423
474
234
264
304
334
364
394
414
44-
10%
--
9813
215
21
652
012
223
113
243
353
444
244
304
364
414
454
494
534
564
594
614
644
664
804
804
804
804
804
804
80-
Ru
n tim
es
in th
is ta
ble
are
app
roxi
mat
e. T
hey
are
bas
ed
on n
ew, f
ully
ch
arge
d s
tan
dard
bat
tery
mod
ules
at a
tem
per
atur
e o
f 25
°C (
77°
F)
with
100
% r
esis
tive
UP
S lo
adin
g.
Specifications
73 Liebert® APS™
Tab
le 3
110
-ba
y, s
ing
le-p
ha
se,
no
tra
ns
form
er
un
it T
ype
N (
& U
PS
mo
de
l nu
mb
er d
igit
6 =
N)
UP
SR
ati
ng
Lo
ad
L
ev
el
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
2
5 k
VA
/4.
5 k
W
10
0%5
16
26
394
86
376
93
105
12
01
30
139
14
61
52
157
16
21
66
186
19
62
04
212
22
02
26
304
310
31
53
2032
43
28
332
336
33
9
90
%6
18
30
445
27
290
104
120
13
11
40
148
15
41
60
165
18
41
95
204
21
32
21
300
30
73
13
318
323
32
83
3233
63
40
343
346
42
2
80
%8
21
36
486
68
11
02
120
132
14
21
50
157
16
31
80
193
20
42
14
223
30
33
10
316
32
23
27
332
336
34
13
4442
04
23
426
429
43
2
70
%9
25
42
537
710
01
20
134
144
15
31
60
166
19
12
04
215
22
53
05
313
32
03
26
332
33
73
41
346
421
42
54
2843
24
34
437
440
44
2
60
%1
12
84
871
96
113
13
51
4715
61
64
18
720
22
15
22
630
83
17
32
43
313
37
34
23
474
23
42
74
3143
44
37
440
443
44
54
4845
04
52
50
%1
53
86
090
112
136
15
01
6018
12
00
21
630
13
12
32
132
93
36
34
34
204
25
43
04
344
38
44
14
4444
74
50
452
454
45
64
5846
04
62
40
%1
94
77
81
10
138
154
16
51
9721
63
04
31
632
73
36
34
442
24
28
43
34
384
42
44
64
494
52
45
54
5746
04
62
464
466
46
74
8048
04
80
30
%2
76
610
81
42
160
192
21
73
0932
43
36
34
542
64
32
43
844
44
48
45
24
564
59
46
24
644
66
48
04
8048
04
80
480
480
48
04
8048
04
80
20
%4
41
0414
81
85
222
319
33
74
2243
24
41
44
845
34
58
46
246
64
80
48
04
804
80
48
04
804
80
48
04
8048
04
80
480
480
48
04
8048
04
80
10
%9
91
6631
23
45
437
450
45
94
6648
04
80
48
048
04
80
48
048
04
80
48
04
804
80
48
04
804
80
48
04
8048
04
80
480
480
48
04
8048
04
80
10 k
VA
/9
kW
10
0%-
51
016
21
26
333
94
448
52
63
707
68
19
39
91
051
10
12
01
261
31
13
51
3914
31
46
149
152
15
51
5716
01
62
90
%-
61
218
23
30
384
44
852
64
72
789
09
71
03
10
91
201
26
13
11
361
40
14
41
4815
11
54
157
160
16
21
6516
71
83
80
%-
81
421
27
36
434
85
266
74
81
941
02
108
12
01
26
132
13
81
42
146
15
01
54
157
160
16
31
6518
01
87
193
199
20
4
70
%-
91
725
33
42
485
36
977
91
100
10
71
20
127
13
41
40
145
14
91
53
157
16
01
64
166
184
19
11
9820
42
10
215
220
22
5
60
%-
11
20
284
14
853
71
81
971
06
113
12
81
35
142
14
71
52
157
16
11
64
167
18
81
96
203
210
21
62
2222
73
04
309
313
31
7
50
%-
15
26
384
86
175
92
103
11
31
29
137
14
51
51
156
16
11
65
183
19
32
02
210
21
72
24
302
308
31
33
1832
23
27
331
334
33
8
40
%-
20
34
476
47
999
111
129
14
01
48
155
16
11
66
188
19
92
09
218
22
63
06
312
31
83
24
329
333
33
73
4134
54
20
424
427
42
9
30
%-
27
46
679
110
91
30
143
153
16
11
67
194
20
82
20
302
31
13
18
325
33
23
37
342
34
74
23
427
430
43
44
3744
04
42
445
447
44
9
20
%-
44
73
10
51
3314
91
61
186
207
22
33
09
320
33
03
38
345
42
34
28
433
43
84
41
445
44
84
51
454
456
45
94
6146
34
64
466
480
48
0
10
%-
99
144
16
62
1331
23
31
345
428
43
64
44
450
45
54
59
463
46
64
80
480
48
04
80
480
48
04
80
480
480
48
04
8048
04
80
480
480
48
0
15 k
VA
/1
3.5
kW
10
0%-
-5
81
21
619
22
26
303
53
943
46
48
51
53
63
68
72
76
80
839
39
71
01
105
108
11
11
2012
4-
90
%-
-6
101
41
822
26
30
354
04
447
50
52
61
67
72
76
80
90
95
991
0310
71
10
120
124
12
71
3113
4-
80
%-
-8
121
62
126
30
36
414
54
851
60
66
72
77
81
91
97
102
10
61
10
120
124
12
81
3213
61
39
142
145
-
70
%-
-9
141
92
530
37
42
465
05
365
72
77
82
94
100
10
51
09
120
12
51
29
134
138
14
11
4514
81
51
153
156
-
60
%-
-1
118
23
28
374
34
852
64
71
788
39
71
03
10
91
131
25
13
11
351
40
14
41
4715
11
54
157
159
16
21
6416
6-
50
%-
-1
522
28
38
455
06
171
79
92
10
01
07
113
12
61
32
137
14
21
47
151
15
51
58
161
164
16
61
8319
01
96
202
208
-
40
%-
-2
028
40
47
536
97
994
10
411
11
26
13
314
01
45
15
11
551
59
16
31
661
84
19
21
9920
62
13
219
224
30
13
0631
0-
30
%-
-2
741
50
67
809
810
91
25
13
514
31
50
15
616
11
65
18
41
942
04
21
22
202
27
30
53
1131
63
21
325
330
33
43
3734
1-
20
%-
-4
463
81
105
12
51
3914
91
57
16
418
62
00
21
222
33
04
31
33
203
26
33
23
373
42
34
74
2342
64
30
433
436
43
94
4144
4-
10
%-
-9
81
32
152
165
20
12
2231
13
24
33
534
44
24
43
043
64
41
44
54
494
53
45
64
594
61
46
44
6648
04
80
480
480
48
04
8048
0-
Ru
n tim
es
in th
is ta
ble
are
ap
pro
xim
ate
. Th
ey
are
ba
sed
on
new
, ful
ly c
ha
rge
d s
tan
da
rd b
att
ery
mo
dul
es
at a
tem
pe
ratu
re o
f 2
5°C
(77
°F)
with
10
0%
res
istiv
e U
PS
load
ing
.
Specifications
Liebert® APS™ 74
Tab
le 3
21
0-b
ay,
sin
gle
-ph
ase
, n
o t
ran
sfo
rmer
un
it T
ype
R (
& U
PS
mo
de
l n
um
ber
dig
it 6
= R
)
UP
S
Ra
tin
gL
oa
dL
ev
el
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
2
5 k
VA
/
4.5
kW
10
0%
51
52
63
84
86
17
59
21
03
11
31
29
13
71
45
151
156
161
165
183
193
202
210
217
224
302
308
313
318
322
327
330
334
338
90%
61
72
84
35
17
08
21
01
11
21
29
13
81
46
15
315
816
316
719
020
020
921
822
530
431
031
532
032
532
933
433
734
134
434
7
80%
72
03
44
76
47
99
91
11
12
91
40
14
81
55
16
116
618
819
920
921
822
630
631
231
832
432
933
333
734
134
542
042
442
742
9
70%
92
34
05
27
49
61
10
13
01
41
15
01
58
16
41
84
197
209
219
300
308
315
322
327
333
338
342
346
422
425
428
431
434
437
439
60%
11
27
46
67
91
10
91
31
14
31
53
16
11
67
19
52
08
220
302
311
319
326
332
337
343
347
423
427
431
434
437
440
442
445
447
449
50%
14
35
52
80
10
71
31
14
51
56
16
51
91
20
72
21
30
431
432
333
133
734
342
042
542
943
343
744
044
344
644
945
145
345
545
745
9
40%
18
44
72
10
41
32
14
81
60
18
42
05
22
23
07
31
93
28
337
344
422
427
432
437
441
444
447
450
453
456
458
460
462
464
466
467
480
30%
25
53
99
13
31
53
16
62
03
22
43
12
32
63
36
34
54
25
431
437
442
446
450
453
457
459
462
464
466
480
480
480
480
480
480
480
480
20%
39
92
13
81
61
20
33
03
32
33
38
42
24
31
43
94
45
45
145
545
946
346
648
048
048
048
048
048
048
048
048
048
048
048
048
048
048
0
10%
78
15
42
16
32
74
22
43
84
49
45
74
64
48
04
80
48
04
80
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
10
kVA
/9 k
W
10
0%
-5
10
15
20
26
32
39
44
48
52
62
69
75
81
92
99
104
109
113
125
130
134
138
142
145
149
151
154
157
159
-
90%
-6
11
18
23
28
37
43
48
52
64
71
78
83
96
103
108
113
125
130
135
140
144
147
151
154
157
159
162
164
166
-
80%
-7
14
20
27
35
43
48
52
65
74
80
94
101
107
113
126
131
137
141
146
150
153
156
159
162
165
167
185
191
197
-
70%
-9
16
25
33
41
48
52
67
76
83
98
10
611
312
613
213
814
314
815
215
615
916
316
518
118
919
520
220
721
321
8-
60%
-1
12
02
84
04
75
37
07
99
51
04
11
21
26
133
140
146
151
155
159
163
166
184
192
200
207
213
219
224
301
306
311
-
50%
-1
42
53
74
75
37
28
31
00
11
01
26
13
41
42
148
154
159
163
167
188
197
205
213
220
226
304
309
314
319
323
327
331
-
40%
-1
93
24
66
07
69
51
08
12
51
36
14
41
52
15
816
318
019
220
221
222
030
030
731
331
832
432
833
333
734
134
442
042
3-
30%
-2
64
46
28
11
04
12
41
38
14
81
57
16
31
84
19
921
122
230
331
131
932
533
133
634
134
642
242
642
943
243
543
844
144
3-
20%
-4
16
79
81
26
14
31
56
16
51
95
21
32
27
31
13
21
330
338
344
422
427
432
436
440
443
446
449
452
454
457
459
461
463
464
-
10%
-9
01
36
16
01
99
30
03
20
33
64
20
42
94
37
44
44
49
454
458
462
465
480
480
480
480
480
480
480
480
480
480
480
480
480
480
-
15 k
VA
/ 1
3.5
kW
10
0%
--
58
12
16
19
22
26
30
35
39
42
46
48
51
53
62
67
72
76
79
83
93
97
101
104
108
111
120
123
-
90%
--
61
01
31
82
12
62
83
53
94
34
64
95
26
06
67
17
57
98
39
49
810
210
611
011
312
312
713
013
3-
80%
--
71
11
62
02
52
83
54
04
44
85
15
36
57
17
68
09
09
610
110
510
911
312
312
713
113
513
814
114
4-
70%
--
91
41
92
52
83
64
14
64
95
26
47
17
68
19
39
810
410
811
312
312
813
213
614
014
314
714
915
215
5-
60%
--
11
18
23
28
37
43
48
51
62
70
77
82
95
102
107
112
124
129
134
138
142
146
150
153
156
158
161
163
165
-
50%
--
15
22
28
38
44
50
60
69
77
90
98
105
111
124
130
136
141
145
149
153
156
160
162
165
180
187
193
199
205
-
40%
--
19
27
38
46
52
67
77
92
10
11
09
12
313
113
714
314
815
315
716
116
416
718
719
520
220
921
522
022
630
230
7-
30%
--
27
40
49
64
77
94
10
61
22
13
21
40
14
715
315
816
316
718
819
820
721
522
230
030
631
231
732
132
633
033
433
7-
20%
--
42
53
78
10
01
20
13
41
45
15
41
61
16
71
92
205
216
226
306
314
321
327
332
337
342
346
422
426
429
432
435
438
440
-
10%
--
91
12
51
46
16
11
89
21
23
02
31
63
27
33
73
45
424
430
436
440
445
448
452
455
457
460
462
464
466
480
480
480
480
480
-
Ru
n t
imes
in th
is t
abl
e a
re a
ppr
oxi
ma
te.
Th
ey a
re b
ased
on
ne
w, f
ully
cha
rged
sta
nda
rd b
atte
ry m
odu
les
at
a te
mp
era
ture
of
25°C
(7
7°F
) w
ith 1
00%
re
sist
ive
UP
S lo
ad
ing
.
Specifications
75 Liebert® APS™
Tab
le 3
31
0-b
ay,
sin
gle
-ph
as
e, n
o t
ran
sfo
rme
r u
nit
Ty
pe
B (
& U
PS
mo
del
nu
mb
er
dig
it 6
= B
)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
2
5 k
VA
/4.5
kW
10
0%-
51
626
39
48
637
69
31
05
120
130
13
91
46
152
15
71
62
166
18
61
96
204
21
22
20
226
30
43
10
315
320
32
43
2833
23
36
90
%-
61
830
44
52
729
010
41
20
131
140
14
81
54
160
16
51
84
195
20
42
13
221
30
03
07
313
31
83
23
328
332
33
63
4034
33
46
80
%-
82
136
48
66
811
0212
01
32
142
150
15
71
63
180
19
32
04
214
22
33
03
310
31
63
22
327
33
23
36
341
344
42
04
2342
64
29
70
%-
92
542
53
77
10
01
2013
41
44
153
160
16
61
91
204
21
52
25
305
31
33
20
326
33
23
37
341
34
64
21
425
428
43
24
3443
74
40
60
%-
112
848
71
96
11
31
3514
71
56
164
187
20
22
15
226
30
83
17
324
33
13
37
342
34
74
23
427
43
14
34
437
440
44
34
4544
84
50
50
%-
153
860
90
112
13
61
5016
01
81
200
216
30
13
12
321
32
93
36
343
42
04
25
430
43
44
38
441
44
44
47
450
452
45
44
5645
84
60
40
%-
194
778
110
138
15
41
6519
72
16
304
316
32
73
36
344
42
24
28
433
43
84
42
446
44
94
52
455
45
74
60
462
464
46
64
6748
04
80
30
%-
276
61
08
142
160
19
22
1730
93
24
336
345
42
64
32
438
44
44
48
452
45
64
59
462
46
44
66
480
48
04
80
480
480
48
04
8048
04
80
20
%-
4410
41
48
185
222
31
93
3742
24
32
441
448
45
34
58
462
46
64
80
480
48
04
80
480
48
04
80
480
48
04
80
480
480
48
04
8048
04
80
10
%-
9916
63
12
345
437
45
04
5946
64
80
480
480
48
04
80
480
48
04
80
480
48
04
80
480
48
04
80
480
48
04
80
480
480
48
04
8048
04
80
10
kV
A /
9 kW
10
0%-
-5
101
62
126
33
39
444
85
263
70
76
81
93
99
10
51
10
120
12
61
31
135
13
91
43
146
149
15
21
5515
71
60
90
%-
-6
121
82
330
38
44
485
26
472
78
90
97
10
310
91
20
12
61
311
36
14
01
441
48
15
11
5415
71
60
162
165
16
7
80
%-
-8
142
12
736
43
48
526
67
481
94
102
10
81
20
126
13
21
38
142
14
61
50
154
15
71
60
163
165
18
01
8719
31
99
70
%-
-9
172
53
342
48
53
697
79
11
00
10
712
01
27
13
414
01
45
14
91
531
57
16
01
641
66
18
41
9119
82
04
210
215
22
0
60
%-
-1
120
28
41
485
37
181
97
106
11
31
28
135
14
21
47
152
15
71
61
164
16
71
88
196
20
32
10
216
222
22
73
0430
93
13
50
%-
-1
526
38
48
617
59
21
03
113
129
13
71
45
151
15
61
61
165
18
31
93
202
21
02
17
224
30
23
08
313
318
32
23
2733
13
34
40
%-
-2
034
47
64
799
911
11
29
140
148
15
51
61
166
18
81
99
209
21
82
26
306
31
23
18
324
32
93
33
337
341
34
54
2042
44
27
30
%-
-2
746
67
91
10
91
3014
31
53
161
167
19
42
08
220
30
23
11
318
32
53
32
337
34
23
47
423
42
74
30
434
437
44
04
4244
54
47
20
%-
-4
473
105
133
14
91
6118
62
07
223
309
32
03
30
338
34
54
23
428
43
34
38
441
44
54
48
451
45
44
56
459
461
46
34
6446
64
80
10
%-
-9
91
44
166
213
31
23
3134
54
28
436
444
45
04
55
459
46
34
66
480
48
04
80
480
48
04
80
480
48
04
80
480
480
48
04
8048
04
80
Run
tim
es
in th
is ta
ble
are
ap
pro
xim
ate
. T
he
y a
re b
ase
d o
n ne
w,
fully
ch
arg
ed
sta
nd
ard
ba
tter
y m
odu
les
at
a t
emp
era
ture
of
25
°C (
77
°F)
with
10
0%
re
sist
ive
UP
S lo
adin
g.
Specifications
Liebert® APS™ 76
Tab
le 3
410
-ba
y, s
ing
le-p
ha
se,
no
tra
ns
form
er
un
it T
ype
F (
& U
PS
mo
del
nu
mb
er
dig
it 6
= F
)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
2
5 kV
A /
4.5
kW
10
0%
-5
15
26
384
86
175
92
103
11
31
29
137
14
51
51
156
16
11
65
183
19
32
02
210
21
72
24
302
30
83
13
318
322
32
73
3033
4
90%
-6
17
28
435
17
082
101
112
12
91
38
146
15
31
58
163
16
71
90
200
20
92
18
225
30
43
10
315
32
03
25
329
334
33
73
4134
4
80%
-7
20
34
476
47
999
111
129
14
01
48
155
16
11
66
188
19
92
09
218
22
63
06
312
31
83
24
329
33
33
37
341
345
42
04
2442
7
70%
-9
23
40
527
49
61
10
130
141
15
01
58
164
18
41
97
209
21
93
00
308
31
53
22
327
33
33
38
342
34
64
22
425
428
43
14
3443
7
60%
-1
12
74
667
91
109
13
11
4315
31
61
16
719
52
08
22
030
23
11
31
932
63
32
33
73
433
47
42
34
274
31
43
44
3744
04
42
445
447
50%
-1
43
55
280
107
131
14
51
5616
51
91
20
722
13
04
31
432
33
31
33
734
34
20
42
54
294
33
43
74
404
43
44
64
4945
14
53
455
457
40%
-1
84
47
21
04
132
148
16
01
8420
52
22
30
731
93
28
33
734
44
22
42
743
24
37
44
14
444
47
45
04
534
56
45
84
6046
24
64
466
467
30%
-2
55
39
91
33
153
166
20
32
2431
23
26
33
634
54
25
43
143
74
42
44
645
04
53
45
74
594
62
46
44
664
80
48
04
8048
04
80
480
480
20%
-3
99
213
81
61
203
303
32
33
3842
24
31
43
944
54
51
45
545
94
63
46
648
04
80
48
04
804
80
48
04
804
80
48
04
8048
04
80
480
480
10%
-7
81
5421
63
27
422
438
44
94
5746
44
80
48
048
04
80
48
048
04
80
48
048
04
80
48
04
804
80
48
04
804
80
48
04
8048
04
80
480
480
10
kV
A /
9 kW
10
0%
--
51
015
20
26
323
94
448
52
62
697
58
19
29
910
41
09
11
31
251
30
13
41
381
42
14
51
4915
11
54
157
-
90%
--
61
118
23
28
374
34
852
64
71
788
39
61
03
10
811
31
25
13
01
351
40
14
41
471
51
15
41
5715
91
62
164
-
80%
--
71
420
27
35
434
85
265
74
80
941
01
107
11
31
26
131
13
71
41
146
15
01
53
156
15
91
62
165
167
18
51
91-
70%
--
91
625
33
41
485
26
776
83
98
10
61
13
126
13
21
38
143
14
81
52
156
15
91
63
165
18
11
89
195
202
20
72
13-
60%
--
11
20
284
04
753
70
79
951
04
112
12
61
33
140
14
61
51
155
15
91
63
166
18
41
92
200
20
72
13
219
224
30
13
06-
50%
--
14
25
374
75
372
83
100
11
01
26
134
14
21
48
154
15
91
63
167
18
81
97
205
21
32
20
226
30
43
09
314
319
32
33
27-
40%
--
19
32
466
07
695
108
125
13
61
44
152
15
81
63
180
19
22
02
212
22
03
00
307
31
33
18
324
32
83
33
337
341
34
44
20-
30%
--
26
44
628
110
41
24
138
148
15
71
63
184
19
92
11
222
30
33
11
319
32
53
31
336
34
13
46
422
42
64
29
432
435
43
84
41-
20%
--
41
67
981
2614
31
56
165
195
21
32
27
311
32
13
30
338
34
44
22
427
43
24
36
440
44
34
46
449
45
24
54
457
459
46
14
63-
10%
--
90
136
16
01
9930
03
20
336
420
42
94
37
444
44
94
54
458
46
24
65
480
48
04
80
480
48
04
80
480
48
04
80
480
480
48
04
80-
Run
tim
es
in th
is ta
ble
are
ap
pro
xim
ate
. T
he
y a
re b
ase
d o
n ne
w,
fully
ch
arg
ed
sta
nd
ard
ba
ttery
mo
dule
s a
t a te
mp
era
ture
of 2
5°C
(7
7°F
) w
ith 1
00
% r
esi
stiv
e U
PS
load
ing.
Specifications
77 Liebert® APS™
7.2 Estimated Battery Run Times
7.2.1 Tables for UPS Model Number Where Digits 1-3 are AS2 or ASB
Tab
le 3
516
-ba
y, s
ing
le-p
ha
se,
no
tra
ns
form
er
un
it T
yp
e N
(&
UP
S m
od
el
nu
mb
er
dig
it 6
= N
)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5kV
A /
4
.5kW
100
%5
162
63
94
86
37
69
31
05
120
13
01
39
146
15
21
57
162
166
18
61
9620
52
13
220
226
30
43
1031
53
20
324
328
33
23
36
339
34
23
45
420
90
%6
183
04
45
27
29
01
03
12
01
311
40
14
81
541
60
16
51
8319
42
04
213
221
30
03
0731
33
18
323
328
33
23
3634
03
43
34
642
14
24
42
742
9
80
%8
213
64
86
68
11
021
20
13
21
421
50
15
71
631
80
19
32
0421
42
22
302
309
31
63
2132
73
32
336
340
34
44
2042
34
26
42
943
24
34
43
743
9
70
%9
254
25
37
79
91
131
33
14
41
531
60
16
61
902
03
21
42
2430
53
12
319
325
33
13
3634
13
45
421
425
42
84
3143
44
37
43
944
24
44
44
644
8
60
%1
128
48
70
95
11
21
341
46
15
61
631
86
20
12
152
26
30
73
1632
33
30
336
341
34
64
2342
74
30
434
437
44
04
4344
54
47
45
045
24
54
45
545
7
50
%1
538
60
90
11
11
36
149
16
01
80
199
21
53
00
311
32
03
29
336
342
42
04
2542
94
33
437
441
44
44
4744
94
52
454
456
45
84
60
462
46
34
65
466
40
%1
946
77
109
13
71
53
164
19
52
15
302
31
53
26
335
34
34
21
427
432
43
74
4144
54
48
451
454
45
74
5946
14
63
465
467
48
04
80
480
48
04
80
480
30
%2
764
10
614
01
59
18
92
153
07
32
23
343
44
42
44
314
37
44
34
4745
14
55
458
461
46
34
6648
04
80
480
480
48
04
8048
04
80
48
048
04
80
48
048
0
20
%4
31
02
14
718
02
19
31
63
344
20
43
14
394
46
45
24
574
61
46
54
8048
04
80
480
480
48
04
8048
04
80
480
480
48
04
8048
04
80
48
048
04
80
48
048
0
10
%9
61
64
30
834
24
34
44
84
574
65
48
04
804
80
48
04
804
80
48
04
8048
04
80
480
480
48
04
8048
04
80
480
480
48
04
8048
04
80
48
048
04
80
48
048
0
10k
VA
/9
kW
100
%-
51
01
62
12
63
33
94
44
95
263
70
76
829
410
01
05
110
121
12
61
3113
51
39
143
146
14
91
5215
51
58
16
016
21
64
16
618
1
90
%-
61
21
82
33
03
84
44
85
26
472
78
90
971
0410
91
20
126
131
13
61
4014
41
48
151
154
15
71
6016
21
65
16
718
41
89
19
520
0
80
%-
81
42
12
73
64
34
85
26
67
481
95
10
21
08
120
127
13
21
3814
21
47
150
154
15
71
6016
31
65
180
187
19
31
99
204
20
92
14
219
70
%-
91
72
53
34
24
85
36
97
79
11
00
107
12
01
27
134
140
14
51
4915
31
57
161
164
16
61
8419
11
98
204
210
21
52
20
225
30
23
06
310
60
%-
122
13
04
14
86
07
28
19
71
06
12
01
281
36
14
21
4815
21
57
161
164
18
01
8819
62
04
210
217
22
23
0030
53
09
31
431
83
21
32
532
8
50
%-
152
63
84
86
17
59
21
03
113
12
91
37
145
15
11
56
161
165
18
31
9320
22
10
217
224
30
23
0831
33
18
322
327
33
13
34
338
34
13
44
347
40
%-
203
44
76
47
99
91
11
12
91
401
48
15
51
611
66
18
81
9920
92
18
226
306
31
23
1832
43
29
333
337
34
13
4542
04
24
42
742
94
32
43
443
7
30
%-
274
66
79
11
09
130
14
31
53
160
16
71
94
208
21
93
01
310
318
32
53
3133
73
42
347
423
42
74
3043
44
37
439
442
44
44
47
449
45
14
53
455
20
%-
447
310
51
32
14
91
611
86
20
62
233
08
32
03
293
37
34
44
2342
84
33
437
441
44
54
4845
14
54
456
458
46
04
6246
44
66
48
048
04
80
48
048
0
10
%-
981
43
165
21
33
11
330
34
44
27
436
44
34
49
454
45
94
63
466
480
48
04
8048
04
80
480
480
48
04
8048
04
80
480
480
48
04
80
480
48
04
80
480
15
kVA
/ 1
3.5
kW
100
%-
-5
81
21
61
92
22
63
03
539
43
46
485
15
363
68
72
768
08
393
98
101
10
51
0811
11
20
12
412
71
31
13
4-
90
%-
-6
10
14
18
22
26
30
35
40
444
75
052
61
67
727
68
090
95
99
10
31
0711
11
20
124
128
13
11
34
137
14
01
43
-
80
%-
-8
12
16
21
26
30
36
41
45
485
16
066
72
77
819
29
71
02
106
110
12
01
2412
91
32
136
139
14
21
45
148
15
01
53
-
70
%-
-9
14
19
25
30
37
42
46
50
536
57
277
82
94
10
01
0511
01
20
125
130
13
41
3814
11
45
148
151
15
31
56
158
16
11
63
-
60
%-
-1
21
82
33
03
84
44
85
26
472
78
90
971
0310
91
20
126
131
13
61
4014
41
48
151
154
15
71
6016
21
64
16
718
31
89
19
4-
50
%-
-1
52
22
83
94
55
06
27
17
992
100
10
71
13
126
132
13
81
4314
71
51
155
158
16
11
6416
71
84
190
197
20
32
08
213
21
82
22
-
40
%-
-2
02
84
04
75
37
07
99
41
04
11
21
261
33
14
01
4615
11
55
159
163
16
61
8419
22
00
207
213
21
92
2430
13
06
31
131
53
19
32
2-
30
%-
-2
74
15
06
78
09
81
09
125
13
51
43
150
15
61
61
165
184
19
52
0421
22
20
227
305
31
13
1632
13
26
330
334
33
73
41
344
34
74
22
-
20
%-
-4
46
38
21
05
126
13
91
49
158
16
41
87
201
21
32
24
305
313
32
03
2733
33
38
343
347
42
34
2743
04
33
436
439
44
24
44
446
44
84
50
-
10
%-
-9
913
31
52
16
62
022
23
31
23
253
36
34
54
244
31
43
64
4144
64
50
453
456
45
94
6246
44
66
480
480
48
04
8048
04
80
48
048
04
80
48
0-
20
kVA
/ 18
kW
100
%-
--
58
10
13
16
18
21
23
262
83
236
39
42
444
64
850
52
53
626
66
973
76
78
818
39
396
99
-
90
%-
--
69
11
14
18
20
23
26
283
43
741
43
46
485
05
254
64
68
717
57
881
83
93
971
00
103
10
61
09
-
80
%-
--
81
11
41
82
12
52
73
136
40
43
464
85
052
61
66
707
47
881
90
94
981
0210
51
08
11
112
01
23
12
6-
70
%-
--
91
31
72
12
52
83
33
842
45
48
515
36
469
73
77
819
19
61
00
104
107
11
11
2012
41
27
13
113
41
37
14
0-
60
%-
--
12
16
21
26
30
36
41
45
485
16
066
72
77
819
29
71
02
106
110
12
01
2412
81
32
136
139
14
21
45
148
15
01
53
-
50
%-
--
15
20
26
32
39
44
48
51
626
97
581
92
98
10
41
0911
31
24
129
134
13
81
4214
51
48
151
154
15
71
59
161
16
31
65
-
40
%-
--
20
27
35
42
47
52
64
72
799
21
00
10
61
1212
41
30
135
140
14
41
4815
21
55
158
161
16
41
6618
21
89
19
520
02
05
21
0-
30
%-
--
27
39
46
52
67
77
92
10
11
09
123
13
11
38
143
149
15
31
5716
11
64
167
188
19
52
0220
92
15
221
226
30
33
07
311
31
53
19
-
20
%-
--
45
53
74
92
10
51
22
133
14
21
50
156
16
11
66
187
198
20
82
1722
43
03
310
315
32
13
2633
03
34
338
342
34
54
21
423
42
64
29
-
10
%-
--
99
12
71
44
157
16
61
97
214
30
03
12
322
33
13
39
345
423
42
84
3343
74
41
444
447
45
04
5345
54
57
459
461
46
34
65
466
48
04
80
-
Run
tim
es
in th
is ta
ble
are
ap
pro
xim
ate
. T
he
y a
re b
ase
d o
n ne
w,
fully
ch
arg
ed
sta
nd
ard
ba
ttery
mo
dule
s a
t a te
mp
era
ture
of 2
5°C
(7
7°F
) w
ith 1
00
% r
esi
stiv
e U
PS
load
ing.
Specifications
Liebert® APS™ 78
Tab
le 3
61
6-b
ay,
sin
gle
-ph
as
e, n
o t
ran
sfo
rme
r u
nit
Ty
pe
R (
& U
PS
mo
de
l n
um
be
r d
igit
6 =
R)
UP
SR
ati
ng
Lo
ad
L
ev
el
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5 k
VA
/4
.5 k
W
100
%5
152
63
848
61
75
9210
31
131
29
137
145
15
115
61
611
65
183
19
32
02
210
21
82
24
302
30
83
13
318
32
33
27
331
33
43
38
341
34
434
7
90
%6
172
84
351
70
82
10
111
21
291
38
146
152
15
816
31
671
90
200
20
92
17
225
30
33
09
315
32
03
25
329
33
33
37
341
34
43
47
422
42
542
7
80
%7
203
44
763
79
99
11
112
91
391
48
155
161
16
618
71
992
09
218
22
63
05
312
31
83
23
328
33
33
37
341
34
54
20
423
42
64
29
432
43
443
7
70
%9
234
05
274
96
111
13
014
11
501
58
164
184
19
820
92
193
00
308
31
53
22
328
33
33
38
342
34
64
22
425
42
94
32
434
43
74
39
442
44
444
6
60
%11
284
66
892
110
131
14
415
31
611
80
196
209
22
130
33
123
19
326
33
23
38
343
42
04
24
428
43
14
34
437
44
04
43
445
44
74
50
452
45
345
5
50
%14
365
28
11
08
132
146
15
716
51
922
08
222
305
31
532
43
313
38
344
42
14
26
430
43
44
37
441
44
44
46
449
45
14
54
456
45
84
59
461
46
346
4
40
%18
447
31
041
32
149
161
18
520
62
223
08
319
329
33
734
44
224
28
433
43
74
41
445
44
84
51
453
45
64
58
460
46
24
64
466
46
74
80
480
48
048
0
30
%25
539
91
331
53
166
202
22
331
23
253
36
345
424
43
143
74
414
46
450
45
34
56
459
46
24
64
466
48
04
80
480
48
04
80
480
48
04
80
480
48
048
0
20
%38
901
36
160
19
930
03
203
36
420
429
43
744
44
494
54
458
462
46
548
04
80
48
048
04
80
48
048
04
80
48
04
804
80
48
04
804
80
48
04
804
80
480
10
%73
14
92
07
320
34
543
34
454
54
461
466
48
048
04
804
80
480
480
48
048
04
80
48
048
04
80
48
048
04
80
48
04
804
80
48
04
804
80
48
04
804
80
480
10
kV
A /
9 k
W
100
%-
51
01
621
26
32
394
44
852
62
69
768
19
399
104
10
91
20
125
13
01
34
138
14
21
45
149
15
21
54
157
15
91
62
164
16
6-
90
%-
61
11
823
28
37
434
85
264
71
78
839
71
031
08
113
12
51
31
135
14
01
44
147
15
11
54
157
15
91
62
164
16
61
82
188
19
3-
80
%-
71
42
027
36
43
485
26
674
81
94
10
110
81
131
26
132
13
71
42
146
15
01
53
157
16
01
62
165
16
71
85
192
19
72
03
208
21
3-
70
%-
91
72
533
42
48
536
87
690
99
106
11
312
61
331
38
144
14
81
52
156
16
01
63
166
18
21
89
196
20
22
08
213
21
82
23
300
30
4-
60
%-
112
02
840
47
53
707
99
51
04
112
126
13
314
01
461
51
155
15
91
63
166
18
41
92
200
20
72
13
219
22
43
02
306
31
13
15
319
32
2-
50
%-
142
53
747
53
72
8310
01
101
26
134
142
14
815
41
591
63
167
18
71
97
205
21
32
19
226
30
43
09
314
31
93
23
327
33
13
34
338
34
1-
40
%-
193
24
660
76
95
10
812
51
361
44
152
158
16
318
01
922
02
212
22
03
00
306
31
33
18
324
32
83
33
337
34
13
44
420
42
34
26
428
43
1-
30
%-
264
46
280
104
124
13
814
81
561
63
184
198
21
122
13
033
11
318
32
53
31
336
34
13
46
422
42
54
29
432
43
54
38
440
44
34
45
447
44
9-
20
%-
416
79
81
25
143
156
16
519
42
122
27
311
321
33
033
73
444
22
427
43
24
36
440
44
34
46
449
45
24
54
456
45
94
61
462
46
44
66
467
48
0-
10
%-
831
35
159
19
922
73
203
35
347
429
43
744
34
494
54
458
461
46
546
74
80
48
048
04
80
48
048
04
80
48
04
804
80
48
04
804
80
48
04
804
80
-
15
kV
A /
13.
5 k
W
100
%-
-5
812
16
19
222
63
035
39
43
464
85
153
63
67
727
67
98
39
39
71
01
105
10
81
11
120
12
41
27
130
13
3-
90
%-
-6
10
141
82
126
28
35
404
34
749
52
61
667
17
680
83
94
99
103
10
71
10
113
12
31
27
130
13
41
37
140
14
2-
80
%-
-7
11
162
02
528
35
40
454
85
153
65
71
768
09
196
101
10
51
09
113
12
31
28
131
13
51
38
141
14
41
47
150
15
2-
70
%-
-9
14
192
52
836
42
46
505
36
471
77
81
939
91
04
10
911
31
24
12
913
31
37
14
01
441
47
15
01
531
55
15
71
601
62
-
60
%-
-1
11
823
28
37
434
85
163
70
77
839
51
021
07
112
12
41
29
134
13
91
43
146
15
01
53
156
15
91
61
163
16
61
80
186
19
1-
50
%-
-1
52
228
38
45
506
06
977
90
98
10
511
11
241
30
136
14
11
45
150
15
31
57
160
16
31
65
180
18
71
93
199
20
52
10
215
22
0-
40
%-
-1
92
739
46
52
677
79
21
01
109
123
13
113
81
431
49
153
15
71
61
164
16
71
88
195
20
32
09
215
22
12
26
303
30
73
11
315
31
9-
30
%-
-2
74
049
64
77
9510
61
221
32
140
147
15
315
81
631
67
189
19
82
07
215
22
23
00
306
31
23
17
322
32
63
30
334
33
73
41
344
34
7-
20
%-
-4
25
378
101
121
13
514
51
541
61
167
193
20
521
62
263
07
314
32
13
27
333
33
83
42
347
42
24
26
429
43
24
35
438
44
04
43
445
44
7-
10
%-
-9
21
261
47
161
190
21
330
23
163
28
338
346
42
543
14
364
41
445
44
94
52
455
45
84
60
463
46
54
67
480
48
04
80
480
48
04
80
480
48
0-
20
kV
A /
18 k
W
100
%-
--
58
10
13
161
82
123
26
28
323
63
942
44
46
485
05
25
36
26
66
97
37
67
88
183
93
96
--
90
%-
--
69
11
14
182
02
326
28
34
374
14
346
48
50
525
36
36
77
17
57
88
18
39
39
61
00
10
31
05-
-
80
%-
--
710
14
17
202
32
731
35
39
434
54
850
52
61
657
07
47
78
08
39
39
71
01
10
41
071
10
11
31
22-
-
70
%-
--
913
17
20
252
83
338
42
45
485
05
362
68
72
768
09
09
49
91
03
10
61
101
13
12
21
261
29
13
31
36-
-
60
%-
--
11
162
02
528
35
40
444
85
153
65
70
758
09
095
100
10
41
09
112
12
21
27
130
13
41
37
141
14
31
46
149
--
50
%-
--
15
202
63
138
43
47
516
06
773
79
90
9610
21
07
11
112
21
27
13
113
61
39
14
31
461
49
15
21
551
57
16
01
62-
-
40
%-
--
19
263
34
146
51
62
707
78
397
104
109
12
112
71
33
13
814
21
46
15
015
31
56
15
91
621
64
16
71
841
90
19
52
01-
-
30
%-
--
27
374
55
165
75
83
9810
71
201
28
134
141
14
615
11
55
15
916
21
65
18
219
01
97
20
42
102
16
22
12
263
03
30
73
11-
-
20
%-
--
43
527
18
31
02
113
130
13
914
71
531
59
164
180
19
220
22
11
21
922
63
05
31
131
63
21
32
63
303
34
33
83
423
45
42
04
23-
-
10
%-
--
95
12
214
01
531
63
189
207
22
230
73
173
26
334
341
34
742
44
29
43
343
74
41
44
444
74
50
45
24
554
57
45
94
614
63
46
44
66-
-
Not
e: R
un
tim
es in
this
ta
ble
are
ap
pro
xim
ate
. T
he
y a
re b
ased
on
ne
w,
fully
cha
rged
sta
nda
rd b
atte
ry m
odu
les
at
a te
mp
era
ture
of
25°C
(7
7°F
) w
ith 1
00%
re
sist
ive
UP
S lo
ad
ing
.
Specifications
79 Liebert® APS™
Tab
le 3
71
6-b
ay,
sin
gle
-ph
ase
, n
o t
ran
sfo
rmer
un
it T
ype
B (
& U
PS
mo
de
l n
um
ber
dig
it 6
= B
)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5 kV
A /
4.5
kW
100
%-
51
62
63
94
86
37
69
31
05
120
13
01
39
146
15
215
71
621
66
186
196
20
521
32
202
26
304
310
31
532
03
24
32
833
23
36
33
934
23
45
90%
-6
18
30
44
52
72
90
10
31
20
131
14
01
48
154
16
016
51
831
94
204
213
22
130
03
073
13
318
323
32
833
23
36
34
034
33
46
42
142
44
27
80%
-8
21
36
48
66
81
102
12
01
32
142
15
01
57
163
18
019
32
042
14
222
302
30
931
63
213
27
332
336
34
034
44
20
42
342
64
29
43
243
44
37
70%
-9
25
42
53
77
99
113
13
31
44
153
16
01
66
190
20
321
42
243
05
312
319
32
533
13
363
41
345
421
42
542
84
31
43
443
74
39
44
244
44
46
60%
-1
12
84
87
09
51
12
134
14
61
56
163
18
62
01
215
22
630
73
163
23
330
336
34
134
64
234
27
430
434
43
744
04
43
44
544
74
50
45
245
44
55
50%
-1
53
86
09
01
11
13
61
491
60
18
01
992
15
30
03
113
20
329
336
34
242
04
254
29
433
437
44
144
44
474
49
452
45
44
56
458
46
04
62
463
46
5
40%
-1
94
67
710
91
37
15
31
641
95
21
53
023
15
32
63
353
43
421
427
43
243
74
414
45
448
451
45
445
74
594
61
463
46
54
67
480
48
04
80
480
48
0
30%
-2
76
41
06
140
15
91
89
215
30
73
22
334
34
44
24
431
43
744
34
474
51
455
458
46
146
34
664
80
480
480
48
048
04
80
48
048
04
80
48
048
04
80
20%
-4
31
02
14
718
02
19
31
63
344
20
43
14
394
46
45
24
574
61
465
480
48
048
04
804
80
480
480
48
048
04
804
80
480
48
04
80
480
48
04
80
480
48
0
10%
-9
61
64
30
834
24
34
44
84
574
65
48
04
804
80
48
04
804
80
480
480
48
048
04
804
80
480
480
48
048
04
804
80
480
48
04
80
480
48
04
80
480
48
0
10
kV
A /
9 k
W
100
%-
-5
10
16
21
26
33
39
44
49
526
37
076
82
94
10
010
51
101
21
126
131
13
513
91
431
46
149
15
21
55
158
16
01
62
164
16
6
90%
--
61
21
82
33
03
84
44
85
264
72
78
909
71
041
09
120
126
13
113
61
401
44
148
151
15
415
71
60
16
216
51
67
18
418
91
95
80%
--
81
42
12
73
64
34
85
26
674
81
95
10
210
81
201
27
132
138
14
214
71
501
54
157
160
16
316
51
80
18
719
31
99
20
420
92
14
70%
--
91
72
53
34
24
85
36
97
791
10
01
071
20
127
134
14
014
51
491
53
157
161
16
416
61
841
91
198
20
42
10
215
22
02
25
302
30
6
60%
--
12
21
30
41
48
60
72
81
97
10
61
20
128
13
614
21
481
52
157
161
16
418
01
881
96
204
210
21
722
23
00
30
530
93
14
31
832
13
25
50%
--
15
26
38
48
61
75
92
10
31
131
29
13
71
451
51
156
161
16
518
31
932
02
210
217
22
430
23
083
13
318
32
23
27
331
33
43
38
341
34
4
40%
--
20
34
47
64
79
99
11
11
29
140
14
81
55
161
16
618
81
992
09
218
226
30
631
23
183
24
329
333
33
734
13
45
42
042
44
27
42
943
24
34
30%
--
27
46
67
91
10
91
301
43
15
31
601
67
19
42
082
19
301
310
31
832
53
313
37
342
347
42
342
74
304
34
437
43
94
42
444
44
74
49
451
45
3
20%
--
44
73
105
13
21
49
161
18
62
06
223
30
83
20
329
33
734
44
234
28
433
437
44
144
54
484
51
454
456
45
846
04
62
46
446
64
80
48
048
04
80
10%
--
98
14
316
52
13
31
13
303
44
42
74
364
43
44
94
544
59
463
466
48
048
04
804
80
480
480
48
048
04
804
80
480
48
04
80
480
48
04
80
480
48
0
15
kV
A /
13.
5 k
W
100
%-
--
58
12
16
19
22
26
30
353
94
346
48
51
536
36
872
76
80
839
39
81
01
105
10
81
11
120
12
41
27
131
-
90%
--
-6
10
14
18
22
26
30
35
404
44
750
52
61
677
27
680
90
95
9910
31
071
11
120
12
41
28
131
13
41
37
140
-
80%
--
-8
12
16
21
26
30
36
41
454
85
160
66
72
778
19
297
102
106
11
012
01
241
29
132
13
61
39
142
14
51
48
150
-
70%
--
-9
14
19
25
30
37
42
46
505
36
572
77
82
9410
01
051
10
120
125
13
013
41
381
41
145
14
81
51
153
15
61
58
161
-
60%
--
-1
21
82
33
03
84
44
85
264
72
78
909
71
031
09
120
126
13
113
61
401
44
148
151
15
415
71
60
16
216
41
67
18
318
9-
50%
--
-1
52
22
83
94
55
06
27
179
92
100
10
711
31
261
32
138
143
14
715
11
551
58
161
164
16
718
41
90
19
720
32
08
21
321
8-
40%
--
-2
02
84
04
75
37
07
99
41
04
11
21
261
33
140
146
15
115
51
591
63
166
184
19
220
02
072
13
219
22
43
01
306
31
13
15
319
-
30%
--
-2
74
15
06
78
09
81
09
125
13
51
43
150
15
616
11
651
84
195
204
21
222
02
273
05
311
316
32
132
63
30
33
433
73
41
34
434
7-
20%
--
-4
46
38
21
05
126
13
91
49
158
16
41
87
201
21
322
43
053
13
320
327
33
333
83
433
47
423
427
43
043
34
36
43
944
24
44
44
644
8-
10%
--
-9
913
31
52
16
62
022
23
31
23
253
36
34
54
244
31
436
441
44
645
04
534
56
459
462
46
446
64
804
80
480
48
04
80
480
48
04
80
480
-
20
kV
A /
18
kW
100
%-
--
-5
81
01
31
61
82
123
26
28
323
63
942
44
46
485
05
253
62
66
697
37
678
81
83
93
96
-
90%
--
--
69
11
14
18
20
23
262
83
437
41
43
464
85
052
54
64
687
17
578
81
83
939
71
00
10
310
6-
80%
--
--
81
11
41
82
12
52
731
36
40
434
64
850
52
61
667
07
478
81
90
949
81
02
10
510
81
11
12
012
3-
70%
--
--
91
31
72
12
52
83
338
42
45
485
15
364
69
73
778
19
196
100
104
10
711
11
20
12
412
71
31
13
413
7-
60%
--
--
12
16
21
26
30
36
41
454
85
160
66
72
778
19
297
102
106
11
012
01
241
28
132
13
61
39
142
14
51
48
150
-
50%
--
--
15
20
26
32
39
44
48
516
26
975
81
92
9810
41
091
13
124
129
13
413
81
421
45
148
15
11
54
157
15
91
61
163
-
40%
--
--
20
27
35
42
47
52
64
727
99
21
00
106
112
12
413
01
351
40
144
148
15
215
51
581
61
164
16
61
82
189
19
52
00
205
-
30%
--
--
27
39
46
52
67
77
92
10
11
09
123
13
113
81
431
49
153
157
16
116
41
671
88
195
202
20
921
52
21
22
630
33
07
31
131
5-
20%
--
--
45
53
74
92
10
51
22
133
14
21
50
156
16
116
61
871
98
208
217
22
430
33
103
15
321
326
33
033
43
38
34
234
54
21
42
342
6-
10%
--
--
99
12
71
44
157
16
61
97
214
30
03
12
322
33
133
93
454
23
428
433
43
744
14
444
47
450
453
45
545
74
59
46
146
34
65
46
648
0-
Run
tim
es
in th
is ta
ble
are
ap
pro
xim
ate
. T
he
y a
re b
ase
d o
n ne
w,
fully
ch
arg
ed
sta
nd
ard
ba
tter
y m
odu
les
at
a t
emp
era
ture
of
25
°C (
77
°F)
with
10
0%
re
sist
ive
UP
S lo
adin
g.
Specifications
Liebert® APS™ 80
Tab
le 3
81
6-b
ay, s
ing
le-p
has
e,
no
tra
nsf
orm
er u
nit
Ty
pe
F (
& U
PS
mo
de
l n
um
be
r d
igit
6 =
F)
UP
S
Ra
tin
gL
oa
dL
ev
el
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5 kV
A /
4.5
kW
10
0%-
51
52
638
48
61
759
21
031
13
129
13
71
45
151
15
61
61
165
18
31
93
202
21
02
18
224
30
23
08
313
31
83
23
327
33
133
43
383
41
344
90
%-
61
72
843
51
70
8210
11
121
29
138
14
61
52
158
16
31
67
190
20
02
09
217
22
53
03
309
31
53
20
325
32
93
33
337
34
134
43
474
22
425
80
%-
72
03
447
63
79
9911
11
291
39
148
15
51
61
166
18
71
99
209
21
82
26
305
31
23
18
323
32
83
33
337
34
13
45
420
42
342
64
294
32
434
70
%-
92
34
052
74
96
11
113
01
411
50
158
16
41
84
198
20
92
19
300
30
83
15
322
32
83
33
338
34
23
46
422
42
54
29
432
43
443
74
394
42
444
60
%-
11
28
46
689
21
101
31
144
153
16
118
01
96
20
922
13
03
31
231
93
26
33
23
383
43
42
04
244
28
43
14
344
37
44
04
434
45
447
450
45
245
3
50
%-
14
36
52
8110
81
321
46
157
165
19
220
82
22
30
531
53
24
33
133
83
44
42
14
264
30
43
44
374
41
44
44
464
49
45
14
544
56
458
459
46
146
3
40
%-
18
44
73
10
413
21
491
61
185
206
22
230
83
19
32
933
73
44
42
242
84
33
43
74
414
45
44
84
514
53
45
64
584
60
46
24
644
66
467
480
48
048
0
30
%-
25
53
99
13
315
31
662
02
223
312
32
533
63
45
42
443
14
37
44
144
64
50
45
34
564
59
46
24
644
66
48
04
804
80
48
04
804
80
480
480
48
048
0
20
%-
38
90
136
16
019
93
003
20
336
420
42
943
74
44
44
945
44
58
46
246
54
80
48
04
804
80
48
04
804
80
48
04
804
80
48
04
804
80
480
480
48
048
0
10
%-
73
149
207
32
034
54
334
45
454
461
46
648
04
80
48
048
04
80
48
048
04
80
48
04
804
80
48
04
804
80
48
04
804
80
48
04
804
80
480
480
48
048
0
10 k
VA
/
9 k
W
10
0%-
-5
10
162
12
632
39
44
485
26
269
76
81
93
99
10
41
09
120
12
51
30
134
13
81
42
145
14
91
52
154
15
715
91
621
64
-
90
%-
-6
11
182
32
837
43
48
526
47
178
83
97
10
310
81
13
12
51
311
35
14
01
441
47
15
11
541
57
15
91
621
64
166
182
18
8-
80
%-
-7
14
202
73
643
48
52
667
48
194
101
10
81
13
126
13
21
37
142
14
61
50
153
15
71
60
162
16
51
67
185
19
219
72
032
08
-
70
%-
-9
17
253
34
248
53
68
769
09
91
06
113
12
61
33
138
14
41
48
152
15
61
60
163
16
61
82
189
19
62
02
208
21
321
82
233
00
-
60
%-
-1
12
028
40
47
537
07
995
104
11
21
26
133
14
01
46
151
15
51
59
163
16
61
84
192
20
02
07
213
21
92
24
302
30
631
13
153
19
-
50
%-
-1
42
537
47
53
728
31
001
10
126
13
41
42
148
15
41
59
163
16
71
87
197
20
52
13
219
22
63
04
309
31
43
19
323
32
733
13
343
38
-
40
%-
-1
93
246
60
76
9510
81
251
36
144
15
21
58
163
18
01
92
202
21
22
20
300
30
63
13
318
32
43
28
333
33
73
41
344
42
042
34
264
28
-
30
%-
-2
64
462
80
104
12
413
81
481
56
163
18
41
98
211
22
13
03
311
31
83
25
331
33
63
41
346
42
24
25
429
43
24
35
438
44
044
34
454
47
-
20
%-
-4
16
798
125
143
15
616
51
942
12
227
31
13
21
330
33
73
44
422
42
74
32
436
44
04
43
446
44
94
52
454
45
64
59
461
46
246
44
664
67
-
10
%-
-8
31
351
59
199
227
32
033
53
474
29
437
44
34
49
454
45
84
61
465
46
74
80
480
48
04
80
480
48
04
80
480
48
04
80
480
48
048
04
804
80
-
15 k
VA
/ 13
.5 k
W
10
0%-
--
58
12
16
192
22
630
35
39
434
64
85
15
36
36
77
27
67
98
39
39
71
011
05
10
81
111
20
124
127
13
0-
90
%-
--
610
14
18
212
62
835
40
43
474
95
26
16
67
17
68
08
39
49
91
03
10
71
101
13
12
31
271
30
134
137
14
0-
80
%-
--
711
16
20
252
83
540
45
48
515
36
57
17
68
09
19
61
01
10
51
091
13
12
31
281
31
13
51
381
41
144
147
15
0-
70
%-
--
914
19
25
283
64
246
50
53
647
17
78
19
39
91
04
109
11
31
24
129
13
31
37
140
14
41
47
150
15
315
51
571
60
-
60
%-
--
11
182
32
837
43
48
516
37
077
83
95
10
210
71
12
12
41
291
34
13
91
431
46
15
01
531
56
15
91
611
63
166
180
18
6-
50
%-
--
15
222
83
845
50
60
697
79
098
105
11
11
24
130
13
61
41
145
15
01
53
157
16
01
63
165
18
01
87
193
19
920
52
102
15
-
40
%-
--
19
273
94
652
67
77
9210
11
09
12
313
11
38
14
314
91
53
15
71
611
64
16
71
881
95
20
32
092
15
22
12
263
03
307
311
31
5-
30
%-
--
27
404
96
477
95
106
12
213
21
40
14
715
31
58
16
316
71
89
19
82
072
15
22
23
003
06
31
23
173
22
32
63
303
34
337
341
34
4-
20
%-
--
42
537
81
011
21
135
145
15
416
11
67
19
320
52
16
22
630
73
14
32
13
273
33
33
83
423
47
42
24
264
29
43
24
354
38
440
443
44
5-
10
%-
--
92
12
614
71
611
90
213
302
31
632
83
38
34
642
54
31
43
644
14
45
44
94
524
55
45
84
604
63
46
54
674
80
48
04
804
80
480
480
48
0-
20 k
VA
/
18 k
W
10
0%-
--
-5
81
013
16
18
212
32
628
32
36
39
42
44
46
48
50
52
53
62
66
69
737
67
881
83
93
--
90
%-
--
-6
91
114
18
20
232
62
834
37
41
43
46
48
50
52
53
63
67
71
75
78
818
39
396
100
103
--
80
%-
--
-7
10
14
172
02
327
31
35
394
34
54
85
05
26
16
57
07
47
78
08
39
397
10
11
041
07
110
113
--
70
%-
--
-9
13
17
202
52
833
38
42
454
85
05
36
26
87
27
68
09
09
49
91
03
106
11
01
13
122
12
612
91
33-
-
60
%-
--
-11
16
20
252
83
540
44
48
515
36
57
07
58
09
09
51
00
10
41
091
12
12
21
271
30
13
41
371
41
143
146
--
50
%-
--
-15
20
26
313
84
347
51
60
677
37
99
09
61
02
10
71
111
22
12
71
311
36
13
91
431
46
14
91
521
55
157
160
--
40
%-
--
-19
26
33
414
65
162
70
77
839
71
04
10
912
11
27
13
31
381
42
14
61
501
53
15
61
591
62
16
41
671
84
190
195
--
30
%-
--
-27
37
45
516
57
583
98
10
71
20
128
13
41
41
146
15
11
55
159
16
21
65
182
19
01
97
204
21
02
16
221
22
630
33
07-
-
20
%-
--
-43
52
71
8310
21
131
30
139
14
71
53
159
16
41
80
192
20
22
11
219
22
63
05
311
31
63
21
326
33
03
34
338
34
234
54
20-
-
10
%-
--
-95
122
140
15
316
31
892
07
222
30
73
17
326
33
43
41
347
42
44
29
433
43
74
41
444
44
74
50
452
45
54
57
459
46
146
34
64-
-
Ru
n ti
me
s in
th
is ta
ble
are
app
roxi
ma
te. T
hey
are
ba
sed
on
ne
w, f
ully
ch
arg
ed
sta
nda
rd b
atte
ry m
od
ule
s a
t a t
em
pera
ture
of 2
5°C
(77
°F)
with
10
0%
res
istiv
e U
PS
loa
din
g.
Specifications
81 Liebert® APS™
7.3 Estimated Battery Run Times
7.3.1 Tables for UPS model number digits 1-3 are AS3 or ASCTa
ble
39
12-
ba
y, s
ing
le-p
ha
se,
tra
nsf
orm
er-
ba
sed
un
it T
yp
e N
(&
UP
S m
od
el n
um
be
r 6
= N
)
UP
SR
ati
ng
Lo
ad
L
ev
el
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
3
5 k
VA
/4
.5 k
W
10
0%
51
52
638
47
60
749
01
021
12
127
13
61
43
150
15
51
60
164
18
11
91
200
20
82
15
222
30
03
06
311
31
63
21
325
32
933
33
363
43
90%
61
72
842
51
69
8210
11
111
28
137
14
51
52
158
16
31
67
189
19
92
08
216
22
43
02
309
31
43
19
324
32
93
33
337
34
034
33
474
21
80%
72
03
447
63
79
9911
11
291
39
148
15
51
60
166
18
71
98
209
21
82
26
305
31
23
18
323
32
83
33
337
34
13
45
420
42
342
64
294
32
70%
92
34
052
74
96
11
013
01
411
50
157
16
41
84
197
20
92
19
300
30
83
15
321
32
73
32
337
34
23
46
422
42
54
28
431
43
443
74
394
41
60%
11
27
46
679
21
091
31
143
153
16
116
71
95
20
922
03
02
31
131
93
26
33
233
83
43
34
74
234
27
43
14
344
37
44
04
424
45
447
449
45
1
50%
14
36
52
8110
81
321
46
157
165
19
220
82
22
30
531
53
24
33
133
83
44
42
142
64
30
43
44
374
41
44
44
464
49
45
14
534
56
457
459
46
1
40%
18
44
73
10
513
31
491
61
186
207
22
330
93
20
33
033
83
45
42
342
84
33
43
844
14
45
44
84
514
54
45
64
594
61
46
34
644
66
480
480
48
0
30%
25
53
101
13
515
41
672
06
227
315
32
833
83
47
42
743
34
38
44
344
84
51
45
545
84
60
46
34
654
67
48
04
804
80
48
04
804
80
480
480
48
0
20%
40
96
141
16
420
83
083
27
342
425
43
444
14
48
45
345
74
61
46
548
04
80
48
048
04
80
48
04
804
80
48
04
804
80
48
04
804
80
480
480
48
0
10%
82
158
225
33
342
74
424
53
460
467
48
048
04
80
48
048
04
80
48
048
04
80
48
048
04
80
48
04
804
80
48
04
804
80
48
04
804
80
480
480
48
0
10
kV
A /
9 k
W
10
0%
-5
10
152
02
631
38
43
485
16
168
74
80
919
71
03
10
811
21
23
12
81
331
37
14
01
441
47
15
01
531
56
158
160
16
3
90%
-6
11
172
32
837
43
47
516
27
076
82
95
10
110
71
12
12
312
91
34
13
81
421
46
14
91
521
55
15
81
611
63
165
167
18
5
80%
-7
13
202
73
542
47
52
647
27
992
99
10
61
12
124
13
01
35
140
14
41
48
152
15
51
58
161
16
41
66
182
18
919
42
002
05
70%
-9
16
233
24
147
52
66
758
39
71
05
112
12
51
31
137
14
21
47
151
15
51
59
162
16
51
67
187
19
32
00
206
21
121
62
212
26
60%
-1
12
028
39
47
536
97
994
103
11
11
25
133
13
91
45
150
15
51
59
162
16
61
83
191
19
92
06
212
21
82
24
301
30
531
03
143
18
50%
-1
42
537
47
53
728
31
001
10
126
13
41
42
148
15
41
59
163
16
71
88
197
20
52
13
220
22
63
04
309
31
43
19
323
32
733
13
343
38
40%
-1
93
346
60
76
9510
81
261
36
145
15
21
58
163
18
11
93
203
21
32
21
300
30
73
13
319
32
43
29
333
33
83
41
345
42
042
34
264
29
30%
-2
64
462
81
104
12
513
81
491
57
164
18
52
00
212
22
33
04
312
31
93
26
332
33
73
42
346
42
24
26
430
43
34
36
438
44
144
34
464
48
20%
-4
16
798
126
143
15
616
51
952
13
227
31
13
22
330
33
83
44
422
42
74
32
436
44
04
43
447
44
94
52
455
45
74
59
461
46
346
44
664
67
10%
-8
31
351
59
197
226
31
933
53
474
28
436
44
34
48
453
45
74
61
464
46
74
80
480
48
04
80
480
48
04
80
480
48
04
80
480
48
048
04
804
80
15
kV
A /
13
.5 k
W
10
0%
--
58
11
15
182
22
628
34
38
424
54
750
52
60
65
70
74
78
81
91
95
99
10
21
06
109
11
212
11
25-
90%
--
69
13
17
212
52
834
39
43
464
95
153
65
70
74
78
82
92
97
10
11
05
108
11
21
21
125
12
913
21
35-
80%
--
711
16
20
252
83
540
44
47
505
36
470
75
79
83
95
99
10
41
081
12
12
21
261
30
13
31
371
40
143
146
-
70%
--
914
18
23
283
54
145
49
52
636
97
580
91
97
10
210
71
11
12
21
271
31
13
51
391
42
14
51
481
51
154
156
-
60%
--
11
172
32
836
42
47
516
16
976
81
94
10
010
61
11
12
212
81
33
13
71
411
45
14
81
521
55
15
71
601
62
165
167
-
50%
--
14
212
83
744
49
53
687
68
397
104
11
01
22
129
13
41
39
144
14
81
52
155
15
91
62
164
16
71
84
191
19
720
22
08-
40%
--
19
273
84
652
67
76
9110
01
09
12
213
01
37
14
314
81
52
15
716
01
64
16
71
861
94
20
12
072
13
21
92
243
01
306
310
-
30%
--
27
404
96
477
95
106
12
213
21
40
14
715
31
58
16
316
71
88
19
820
72
15
22
23
003
06
31
23
173
21
32
63
303
34
337
341
-
20%
--
43
607
91
021
23
136
147
15
516
21
81
19
620
82
19
30
130
93
16
32
332
93
35
34
03
444
20
42
44
284
31
43
44
374
39
442
444
-
10%
--
97
13
115
11
641
99
220
309
32
233
33
43
42
242
94
35
44
044
44
48
45
245
54
58
46
04
634
65
46
74
804
80
48
04
804
80
480
480
-
Ru
n ti
me
s in
th
is ta
ble
are
app
roxi
ma
te. T
hey
are
ba
sed
on
ne
w, f
ully
ch
arg
ed
sta
nda
rd b
atte
ry m
od
ule
s a
t a t
em
pera
ture
of 2
5°C
(77
°F)
with
10
0%
res
istiv
e U
PS
loa
din
g.
Specifications
Liebert® APS™ 82
Tab
le 4
01
2-b
ay,
sin
gle
-ph
ase
, tr
ans
form
er-b
ased
un
it T
ype
R (
& U
PS
mo
de
l n
um
ber
6 =
R)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
3
5 kV
A /
4.5
kW
100
%5
14
25
37
47
53
72
83
100
110
126
134
142
148
154
159
163
167
187
197
205
213
219
226
304
30
93
14
31
93
23
32
73
31
33
43
38
90%
51
62
74
15
06
78
09
81
091
261
351
431
501
561
611
651
851
952
052
132
212
273
063
113
173
22
32
63
30
33
43
38
34
13
44
34
7
80%
71
93
34
66
17
69
61
081
261
371
451
521
581
641
821
932
042
132
223
013
083
143
203
253
303
34
33
83
42
34
54
21
42
44
26
42
9
70%
82
23
95
07
19
21
071
261
381
471
551
611
671
902
032
132
223
033
103
173
233
283
333
383
423
46
42
24
25
42
84
31
43
44
36
43
9
60%
10
26
44
63
81
105
126
139
149
157
164
186
200
213
223
304
313
320
326
332
338
342
347
423
426
43
04
33
43
64
39
44
14
44
44
64
48
50%
13
32
50
76
102
125
140
152
161
180
197
212
224
307
316
324
331
337
343
420
424
428
432
436
439
44
24
45
44
74
49
45
24
54
45
64
57
40%
16
41
66
97
125
142
155
165
193
211
226
310
320
329
337
343
421
426
431
435
439
443
446
449
451
45
44
56
45
84
60
46
24
64
46
54
67
30%
22
50
91
125
147
161
190
212
302
316
328
337
346
425
431
436
441
445
448
452
455
458
460
462
465
46
74
80
48
04
80
48
04
80
48
04
80
20%
35
79
130
155
188
219
313
329
342
424
432
439
445
450
454
458
462
465
467
480
480
480
480
480
480
48
04
80
48
04
80
48
04
80
48
04
80
10%
71
147
203
317
342
431
443
452
459
465
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
48
04
80
48
04
80
48
04
80
48
04
80
10
kV
A /
9 k
W
100
%-
51
01
52
02
63
13
84
34
75
16
06
77
47
99
09
61
021
071
121
221
271
321
361
401
43
14
71
50
15
21
55
15
81
60
-
90%
-6
11
17
22
28
36
42
47
51
61
69
75
81
93
100
106
111
122
127
132
137
141
145
148
15
11
54
15
71
60
16
21
64
16
6-
80%
-7
13
19
26
34
41
47
51
63
71
78
90
98
105
110
122
128
134
139
143
147
151
154
157
16
01
63
16
51
67
18
61
92
19
7-
70%
-9
16
23
31
40
47
51
65
74
81
95
103
110
123
129
135
141
145
150
154
157
160
163
166
18
31
90
19
62
02
20
82
13
21
8-
60%
-1
11
92
73
84
65
26
77
79
11
011
091
231
311
371
431
481
531
571
611
641
671
871
952
022
08
21
42
20
22
53
02
30
73
11
-
50%
-1
42
53
64
65
27
08
19
81
081
221
321
391
461
521
571
611
651
821
922
002
082
152
223
003
05
31
03
15
31
93
24
32
73
31
-
40%
-1
83
04
45
27
39
11
051
211
321
411
491
551
611
651
861
972
062
152
233
023
083
143
203
253
29
33
33
37
34
13
44
42
04
23
-
30%
-2
54
25
37
71
001
201
341
441
531
601
661
912
042
152
253
053
133
203
263
323
373
413
464
214
25
42
84
32
43
44
37
44
04
42
-
20%
-3
86
19
111
21
371
501
611
822
012
173
023
133
223
303
373
434
214
264
304
344
384
424
454
474
50
45
24
55
45
74
59
46
14
62
-
10%
-7
512
415
116
72
113
063
233
363
474
284
354
414
474
514
554
594
624
654
674
804
804
804
804
804
80
48
04
80
48
04
80
48
04
80
-
15
kV
A /
13.
5 k
W
100
%-
-5
81
11
51
82
22
62
83
33
84
14
54
75
05
26
06
57
07
47
78
19
09
49
81
02
10
51
09
11
21
21
12
4-
90%
--
69
13
17
21
25
28
34
38
42
46
48
51
53
64
69
74
78
81
91
96
100
104
10
81
11
12
01
24
12
81
31
13
4-
80%
--
71
11
62
02
52
83
43
94
34
75
05
26
36
97
47
88
29
39
81
031
071
111
211
25
12
91
32
13
61
39
14
21
45
-
70%
--
91
31
82
32
83
54
04
54
95
26
26
97
47
99
09
61
011
061
111
211
261
301
341
38
14
11
45
14
81
50
15
31
55
-
60%
--
11
17
22
28
36
42
47
51
60
68
75
81
93
99
105
110
121
127
132
136
140
144
148
15
11
54
15
71
59
16
21
64
16
6-
50%
--
14
21
27
36
43
49
53
67
75
82
95
103
109
121
127
133
138
143
147
151
155
158
161
16
31
66
18
21
88
19
42
00
20
6-
40%
--
18
27
37
45
51
65
75
83
99
107
120
128
135
141
146
151
155
159
162
166
182
190
197
20
42
10
21
62
21
22
63
03
30
8-
30%
--
26
38
48
61
75
91
103
113
129
137
144
151
156
161
165
183
193
202
210
217
224
302
308
31
33
18
32
23
26
33
03
34
33
7-
20%
--
41
52
75
97
112
131
142
151
159
165
186
200
211
221
302
310
317
323
329
334
339
343
347
42
34
26
43
04
32
43
54
80
48
0-
10%
--
82
121
143
158
183
206
225
311
323
333
342
421
427
433
438
442
446
449
453
455
458
460
463
46
54
67
48
04
80
48
04
80
48
0-
Run
tim
es in
this
ta
ble
are
ap
pro
xim
ate
. Th
ey
are
ba
sed
on n
ew
, fu
lly c
harg
ed
sta
nd
ard
ba
ttery
mo
dule
s a
t a
tem
pe
ratu
re o
f 2
5°C
(7
7°F
) w
ith 1
00%
re
sist
ive
UP
S lo
ad
ing.
Specifications
83 Liebert® APS™
Tab
le 4
11
2-b
ay,
sin
gle
-ph
as
e, t
ran
sfo
rme
r-b
ase
d u
nit
Ty
pe
B (
& U
PS
mo
del
nu
mb
er
6 =
B)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
3
5 kV
A /
4.5
kW
10
0%-
51
526
38
47
607
49
01
02
112
127
13
61
43
150
15
51
60
164
181
191
200
208
215
222
300
306
311
316
321
325
329
333
336
90
%-
61
728
42
51
698
210
11
11
128
137
14
51
52
158
16
31
67
189
199
208
216
224
302
309
314
319
324
329
333
337
340
343
347
80
%-
72
034
47
63
799
911
11
29
139
148
15
51
60
166
18
71
98
209
218
226
305
312
318
323
328
333
337
341
345
420
423
426
429
70
%-
92
340
52
74
961
1013
01
41
150
157
16
41
84
197
20
92
19
300
308
315
321
327
332
337
342
346
422
425
428
431
434
437
439
60
%-
112
746
67
92
10
91
3114
31
53
161
167
19
52
09
220
30
23
11
319
326
332
338
343
347
423
427
431
434
437
440
442
445
447
449
50
%-
143
652
81
108
13
21
4615
71
65
192
208
22
23
05
315
32
43
31
338
344
421
426
430
434
437
441
444
446
449
451
453
456
457
459
40
%-
184
473
105
133
14
91
6118
62
07
223
309
32
03
30
338
34
54
23
428
433
438
441
445
448
451
454
456
459
461
463
464
466
480
480
30
%-
255
31
01
135
154
16
72
0622
73
15
328
338
34
74
27
433
43
84
43
448
451
455
458
460
463
465
467
480
480
480
480
480
480
480
480
20
%-
409
61
41
164
208
30
83
2734
24
25
434
441
44
84
53
457
46
14
65
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
10
%-
8215
82
25
333
427
44
24
5346
04
67
480
480
48
04
80
480
48
04
80
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
10
kV
A /
9 kW
10
0%-
-5
101
52
026
31
38
434
85
161
68
74
80
91
9710
310
811
212
312
813
313
714
014
414
715
015
315
615
816
0
90
%-
-6
111
72
328
37
43
475
16
270
76
82
95
10
110
711
212
312
913
413
814
214
614
915
215
515
816
116
316
516
7
80
%-
-7
132
02
735
42
47
526
47
279
92
99
10
61
12
124
130
135
140
144
148
152
155
158
161
164
166
182
189
194
200
70
%-
-9
162
33
241
47
52
667
58
397
10
511
21
25
13
113
714
214
715
115
515
916
216
516
718
719
320
020
621
121
622
1
60
%-
-1
120
28
39
475
36
979
94
103
11
11
25
133
13
91
45
150
155
159
162
166
183
191
199
206
212
218
224
301
305
310
314
50
%-
-1
425
37
47
537
28
31
00
110
126
13
41
42
148
15
41
59
163
167
188
197
205
213
220
226
304
309
314
319
323
327
331
334
40
%-
-1
933
46
60
769
510
81
26
136
145
15
21
58
163
18
11
93
203
213
221
300
307
313
319
324
329
333
338
341
345
420
423
426
30
%-
-2
644
62
81
10
41
2513
81
49
157
164
18
52
00
212
22
33
04
312
319
326
332
337
342
346
422
426
430
433
436
438
441
443
446
20
%-
-4
167
98
126
14
31
5616
51
95
213
227
31
13
22
330
33
83
44
422
427
432
436
440
443
447
449
452
455
457
459
461
463
464
466
10
%-
-8
31
35
159
197
22
63
1933
53
47
428
436
44
34
48
453
45
74
61
464
467
480
480
480
480
480
480
480
480
480
480
480
480
480
480
Ru
n ti
mes
in th
is t
abl
e a
re a
ppr
oxi
ma
te.
Th
ey
are
bas
ed o
n n
ew
, fu
lly c
harg
ed s
tan
dard
ba
ttery
mod
ule
s a
t a
tem
per
atu
re o
f 25
°C (
77
°F)
with
100
% r
esi
stiv
e U
PS
loa
din
g.
Specifications
Liebert® APS™ 84
Tab
le 4
21
2-b
ay, s
ing
le-p
has
e,
tran
sfo
rmer
-ba
sed
un
it T
yp
e F
(&
UP
S m
od
el
nu
mb
er
6 =
F)
UP
SR
ati
ng
Lo
ad
L
ev
el
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
3
5 k
VA
/4
.5 k
W
100
%-
51
42
53
74
75
37
28
310
011
012
613
414
214
815
415
916
316
71
871
972
052
132
192
263
043
093
143
193
233
273
313
34
90
%-
51
62
74
15
06
78
09
810
912
613
514
315
015
616
116
518
519
52
052
132
212
273
063
113
173
223
263
303
343
383
413
44
80
%-
71
93
34
66
17
69
610
812
613
714
515
215
816
418
219
320
421
32
223
013
083
143
203
253
303
343
383
423
454
214
244
26
70
%-
82
23
95
07
19
210
712
613
814
715
516
116
719
020
321
322
230
33
103
173
233
283
333
383
423
464
224
254
284
314
344
36
60
%-
10
26
44
63
81
105
126
139
149
157
164
186
200
213
223
304
313
320
326
332
338
342
347
423
426
430
433
436
439
441
444
446
50
%-
13
32
50
76
102
125
140
152
161
180
197
212
224
307
316
324
331
337
343
420
424
428
432
436
439
442
445
447
449
452
454
456
40
%-
16
41
66
97
125
142
155
165
193
211
226
310
320
329
337
343
421
426
431
435
439
443
446
449
451
454
456
458
460
462
464
465
30
%-
22
50
91
125
147
161
190
212
302
316
328
337
346
425
431
436
441
445
448
452
455
458
460
462
465
467
480
480
480
480
480
480
20
%-
35
79
130
155
188
219
313
329
342
424
432
439
445
450
454
458
462
465
467
480
480
480
480
480
480
480
480
480
480
480
480
480
10
%-
71
147
203
317
342
431
443
452
459
465
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
480
10
kV
A /
9 k
W
100
%-
-5
10
15
20
26
31
38
43
47
51
60
67
74
79
90
96
102
107
112
122
127
132
136
140
143
147
150
152
155
158
-
90
%-
-6
11
17
22
28
36
42
47
51
61
69
75
81
93
100
106
111
122
127
132
137
141
145
148
151
154
157
160
162
164
-
80
%-
-7
13
19
26
34
41
47
51
63
71
78
90
98
105
110
122
128
134
139
143
147
151
154
157
160
163
165
167
186
192
-
70
%-
-9
16
23
31
40
47
51
65
74
81
95
103
110
123
129
135
141
145
150
154
157
160
163
166
183
190
196
202
208
213
-
60
%-
-1
11
92
73
84
65
26
77
79
110
110
912
313
113
714
314
815
31
571
611
641
671
871
952
022
082
142
202
253
023
07-
50
%-
-1
42
53
64
65
27
08
19
810
812
213
213
914
615
215
716
116
51
821
922
002
082
152
223
003
053
103
153
193
243
27-
40
%-
-1
83
04
45
27
39
110
512
113
214
114
915
516
116
518
619
720
62
152
233
023
083
143
203
253
293
333
373
413
444
20-
30
%-
-2
54
25
37
710
012
013
414
415
316
016
619
120
421
522
530
531
33
203
263
323
373
413
464
214
254
284
324
344
374
40-
20
%-
-3
86
19
111
213
715
016
118
220
121
730
231
332
233
033
734
342
14
264
304
344
384
424
454
474
504
524
554
574
594
61-
10
%-
-7
512
415
116
721
130
632
333
634
742
843
544
144
745
145
545
946
24
654
674
804
804
804
804
804
804
804
804
804
804
80-
Ru
n tim
es
in th
is ta
ble
are
ap
pro
xim
ate
. Th
ey
are
ba
sed
on
new
, ful
ly c
ha
rge
d s
tan
da
rd b
att
ery
mo
dul
es
at a
tem
pe
ratu
re o
f 2
5°C
(77
°F)
with
10
0%
re
sist
ive
UP
S lo
adin
g.
Specifications
85 Liebert® APS™
7.4 Estimated Battery Run Times
7.4.1 Tables for UPS Model Number Where Digits 1-3 are AS4 or ASD
Tab
le 4
31
6-b
ay, s
ing
le-p
has
e,
tran
sfo
rmer
-ba
sed
un
it T
yp
e N
(&
UP
S m
od
el n
um
ber
6 =
N)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5 k
VA
/4
.5 k
W
100
%5
15
263
84
760
74
90
10
21
1112
71
36
143
149
15
51
60
164
18
01
90
199
20
72
15
222
30
03
06
311
31
63
20
325
32
93
32
336
339
34
23
45
90
%6
17
284
25
169
81
100
11
11
2813
71
45
152
157
16
21
67
188
19
82
08
216
22
33
02
308
31
43
19
324
32
83
32
336
34
03
43
346
421
42
44
26
80
%7
19
344
76
378
98
110
12
81
3914
71
54
160
165
18
61
97
208
21
72
25
304
31
13
17
322
32
73
32
336
34
03
44
347
42
34
26
428
431
43
44
36
70
%9
23
405
17
495
110
129
14
11
5015
71
63
183
196
20
82
18
227
30
73
14
321
32
73
32
337
34
13
45
421
42
54
28
431
43
44
36
439
441
44
34
45
60
%11
27
466
79
11
09
130
143
15
31
6016
71
94
208
219
30
13
10
318
32
53
31
337
34
23
47
423
42
74
30
434
43
74
39
442
44
44
47
449
451
45
34
55
50
%14
35
528
010
71
31
145
156
16
41
9020
72
21
304
314
32
33
30
337
34
34
20
425
42
94
33
437
44
04
43
446
44
84
51
453
45
54
57
459
461
46
24
64
40
%18
44
731
0413
21
49
160
185
20
62
2230
83
19
329
337
34
44
22
428
43
34
37
441
44
44
48
451
45
34
56
458
46
04
62
464
46
64
67
480
480
48
04
80
30
%25
53
10
01
3415
41
67
205
226
31
43
2733
73
46
426
432
43
84
43
447
45
14
54
457
46
04
62
465
46
74
80
480
48
04
80
480
48
04
80
480
480
48
04
80
20
%40
94
14
01
6320
63
06
326
340
42
44
3344
04
47
452
457
46
04
64
467
48
04
80
480
48
04
80
480
48
04
80
480
48
04
80
480
48
04
80
480
480
48
04
80
10
%81
157
22
23
3142
64
41
451
459
46
64
8048
04
80
480
480
48
04
80
480
48
04
80
480
48
04
80
480
48
04
80
480
48
04
80
480
48
04
80
480
480
48
04
80
10
kV
A /
9 k
W
100
%-
510
15
20
263
13
843
48
51
616
87
480
91
97
10
31
08
112
12
31
28
133
13
71
40
144
14
71
50
153
15
61
58
160
163
16
51
66
90
%-
611
17
23
283
74
347
51
62
707
68
295
10
110
71
12
12
312
91
34
13
81
421
46
14
91
521
55
15
81
611
63
16
51
6718
51
90
195
80
%-
713
20
27
354
24
752
64
72
799
29
91
06
11
212
41
30
13
514
01
44
14
81
521
55
15
81
611
64
16
61
821
89
19
42
0020
52
10
215
70
%-
916
23
32
414
75
266
75
83
971
0511
21
25
13
113
71
42
14
715
11
55
15
91
621
65
16
71
861
93
20
02
062
11
21
62
2122
63
02
306
60
%-
11
202
83
947
53
69
799
410
31
11
125
133
13
91
45
150
15
51
59
162
16
61
83
191
19
92
06
212
21
82
23
301
30
53
10
314
318
32
23
25
50
%-
14
253
74
753
72
83
10
01
1012
61
34
142
148
15
41
59
163
16
71
87
197
20
52
13
219
22
63
04
309
31
43
19
323
32
73
31
334
338
34
13
44
40
%-
19
324
66
076
95
108
12
51
3614
51
52
158
163
18
01
92
203
21
22
21
300
30
73
13
319
32
43
29
333
33
73
41
345
42
04
23
426
429
43
14
34
30
%-
26
446
28
11
04
125
138
14
91
5716
41
85
199
212
22
23
04
312
31
93
26
332
33
73
42
346
42
24
26
429
43
34
36
438
44
14
43
446
448
45
04
52
20
%-
41
679
812
61
43
156
165
19
52
1322
73
11
321
330
33
83
44
422
42
74
32
436
44
04
43
447
44
94
52
454
45
74
59
461
46
34
64
466
467
48
04
80
10
%-
83
13
51
5919
72
26
319
335
34
74
2843
64
43
449
453
45
74
61
464
46
74
80
480
48
04
80
480
48
04
80
480
48
04
80
480
48
04
80
480
480
48
04
80
15
kV
A /
13
.5 k
W
100
%-
-5
81
115
18
22
262
83
438
42
45
485
05
26
16
67
07
47
88
19
19
59
91
03
10
61
091
12
12
11
2512
81
31
-
90
%-
-6
91
317
21
25
283
43
943
46
49
515
36
57
07
47
88
29
29
71
01
10
51
091
12
12
11
251
29
13
21
3513
81
41
-
80
%-
-7
11
16
202
52
835
40
44
475
05
364
70
75
79
83
95
10
01
04
108
11
21
22
126
13
01
34
137
14
01
43
146
148
15
1-
70
%-
-9
14
18
232
83
541
45
49
526
37
075
80
91
97
10
310
71
12
12
21
271
31
13
51
391
42
14
61
491
51
15
41
5615
91
61
-
60
%-
-11
17
23
283
64
247
51
61
697
68
194
10
010
61
11
12
212
81
33
13
71
411
45
14
91
521
55
15
71
601
62
16
51
6718
31
88
-
50
%-
-14
21
28
374
44
953
68
76
839
710
41
10
12
212
91
34
13
914
41
48
15
21
551
59
16
21
641
67
18
41
911
97
20
22
0821
32
17
-
40
%-
-19
27
38
465
26
676
91
100
10
81
2213
01
37
14
214
81
52
15
716
01
64
16
71
861
93
20
12
072
13
21
92
243
01
30
63
1031
43
18
-
30
%-
-27
40
49
647
79
41
06
122
132
14
01
4715
31
58
16
316
71
88
19
820
72
14
22
23
003
06
31
23
173
21
32
63
303
34
33
73
4034
43
47
-
20
%-
-43
60
79
10
21
2213
61
47
155
162
18
11
9520
82
19
30
030
93
16
32
332
93
34
33
93
444
20
42
44
274
31
43
44
374
39
44
24
4444
64
48
-
10
%-
-96
130
151
16
41
9822
03
09
322
333
34
24
2242
94
35
44
044
44
48
45
245
54
58
46
04
634
65
46
74
804
80
48
04
804
80
48
04
8048
04
80
-
20
kV
A /
18 k
W
100
%-
--
57
101
21
518
20
22
262
73
134
38
40
43
45
47
49
51
52
60
64
67
70
747
67
981
90
93
96-
90
%-
--
69
111
41
720
23
26
283
23
640
42
45
47
49
51
53
62
66
69
73
76
79
829
19
497
101
104
10
6-
80
%-
--
71
013
17
20
232
73
035
38
42
454
75
05
25
36
46
87
27
67
98
29
29
699
103
10
61
09
112
120
12
4-
70
%-
--
91
216
20
23
273
23
741
44
47
505
26
16
67
17
57
98
39
39
71
01
105
10
81
12
121
12
51
28
131
134
13
7-
60
%-
--
11
16
202
52
835
40
44
475
05
364
69
75
79
83
94
99
10
41
081
11
12
11
261
30
13
31
371
40
14
31
4514
81
51
-
50
%-
--
14
20
253
03
743
47
50
536
77
378
83
95
10
11
06
111
12
11
26
131
13
51
39
143
14
61
49
152
15
41
57
159
161
16
3-
40
%-
--
19
26
334
14
651
61
70
778
39
71
03
10
912
11
27
13
213
71
42
14
61
501
53
15
61
591
62
16
41
671
83
18
91
9520
02
05
-
30
%-
--
27
37
455
16
575
83
98
10
71
2012
81
35
14
114
61
51
15
515
91
62
16
51
821
90
19
72
042
10
21
62
212
26
30
33
0731
13
15
-
20
%-
--
43
52
718
310
21
13
130
139
14
71
5315
91
64
18
119
22
02
21
121
92
27
30
53
113
17
32
23
263
31
33
53
393
42
34
54
2042
34
26
-
10
%-
--
96
123
14
11
5416
41
90
209
223
30
83
1832
73
35
34
242
04
25
43
043
44
38
44
14
454
48
45
04
534
55
45
74
594
61
46
34
6546
64
80
-
Ru
n ti
mes
in th
is t
abl
e a
re a
ppr
oxi
ma
te.
Th
ey
are
bas
ed o
n n
ew
, fu
lly c
harg
ed s
tan
dard
ba
ttery
mod
ule
s a
t a
tem
per
atu
re o
f 25
°C (
77
°F)
with
100
% r
esi
stiv
e U
PS
loa
din
g.
Specifications
Liebert® APS™ 86
Tab
le 4
41
6-b
ay,
sin
gle
-ph
ase
, tr
ans
form
er-b
ased
un
it T
ype
R (
& U
PS
mo
de
l n
um
ber
6 =
R)
UP
SR
ati
ng
Lo
ad
L
ev
el
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5 kV
A /
4.5
kW
100
%5
14
25
37
47
53
72
83
10
01
101
25
13
41
421
48
154
159
16
316
71
871
96
205
212
21
922
63
033
09
314
31
83
23
327
33
13
34
337
34
13
43
90
%5
16
27
41
50
67
80
98
10
91
261
35
14
31
501
56
161
165
18
519
52
042
13
220
227
30
531
13
173
21
326
33
03
34
338
34
13
44
347
42
24
25
80
%7
19
33
46
60
76
96
10
81
26
136
14
51
52
158
16
418
11
932
04
213
221
30
130
83
143
19
325
329
33
433
83
42
34
542
04
23
42
642
94
32
43
4
70
%8
22
38
50
71
92
107
12
61
37
147
15
51
61
166
19
020
22
132
22
302
310
31
732
33
283
33
338
342
34
642
14
25
42
843
14
34
43
643
94
41
44
3
60
%1
02
64
46
38
11
05
125
13
91
49
157
16
41
86
200
21
222
33
043
12
320
326
33
233
73
423
47
423
426
43
043
34
36
43
944
14
44
44
644
84
50
45
2
50
%1
33
25
07
61
02
12
51
401
52
16
01
801
97
21
22
243
06
316
324
33
133
73
424
20
424
428
43
243
64
394
42
444
44
74
49
452
45
44
56
457
45
94
61
40
%1
64
16
69
71
24
14
21
551
65
19
32
112
26
31
03
203
29
336
343
42
142
64
314
35
439
443
44
644
94
514
54
456
45
84
60
462
46
44
65
467
48
04
80
30
%2
25
09
112
51
46
16
01
892
12
30
13
163
27
33
73
454
24
430
436
44
044
44
484
52
455
457
46
046
24
644
66
480
48
04
80
480
48
04
80
480
48
04
80
20
%3
47
91
29
155
18
72
18
312
32
83
41
423
43
24
39
445
45
045
44
584
61
464
467
48
048
04
804
80
480
480
48
048
04
80
48
048
04
80
48
048
04
80
48
0
10
%7
01
46
20
131
53
41
43
04
424
51
45
94
644
80
48
04
804
80
480
480
48
048
04
804
80
480
480
48
048
04
804
80
480
48
04
80
480
48
04
80
480
48
04
80
10
kV
A /
9 k
W
100
%-
51
01
52
02
63
13
84
34
751
60
67
747
99
096
102
107
11
212
21
271
32
136
140
14
314
71
50
15
215
51
58
16
016
21
64
-
90
%-
61
11
72
22
83
64
24
75
161
69
75
819
31
001
06
111
122
12
713
21
371
41
145
148
15
115
41
57
16
016
21
64
16
618
21
88
-
80
%-
71
31
92
63
44
14
75
16
271
78
90
9810
41
101
22
128
134
13
814
31
471
51
154
157
16
016
31
65
16
718
51
91
19
720
22
07
-
70
%-
91
62
33
14
04
75
16
57
481
95
103
11
012
21
291
35
141
145
15
015
41
571
60
163
166
18
319
01
96
20
220
82
13
21
822
32
27
-
60
%-
11
19
27
38
46
52
67
77
92
10
11
09
123
13
113
71
431
48
153
157
16
116
41
671
87
195
202
20
821
42
20
22
530
23
07
31
131
53
19
-
50
%-
14
25
36
46
52
70
81
98
108
12
31
32
139
14
615
21
571
61
165
182
19
220
02
082
15
222
300
30
531
03
15
32
032
43
28
33
133
53
38
-
40
%-
18
30
44
52
73
91
10
51
21
132
14
11
49
155
16
116
51
861
97
206
215
22
330
23
083
14
320
325
32
933
33
37
34
134
44
20
42
342
54
28
-
30
%-
25
42
53
77
10
01
201
34
14
41
531
60
16
61
912
04
215
225
30
531
33
203
26
332
337
34
134
64
224
25
428
43
24
34
437
44
04
42
444
44
6-
20
%-
38
61
91
11
21
37
150
16
11
82
201
21
73
02
312
32
233
03
373
43
421
426
43
043
44
384
41
445
447
45
045
24
55
45
745
94
61
46
246
44
65
-
10
%-
75
12
415
11
67
21
03
053
22
33
63
474
27
43
54
414
46
451
455
45
846
24
644
67
480
480
48
048
04
804
80
480
48
04
80
480
48
04
80
480
48
0-
15
kV
A /
13
.5 k
W
100
%-
-5
81
11
51
82
22
62
833
38
41
454
75
052
60
65
707
47
781
90
94
9810
21
05
10
911
21
21
12
412
71
30
-
90
%-
-6
91
31
72
12
52
83
438
42
46
485
15
364
69
74
788
19
196
100
104
10
811
11
20
12
412
81
31
13
413
71
40
-
80
%-
-7
11
16
20
25
28
34
39
434
75
052
63
69
747
88
293
98
103
10
711
11
211
25
129
13
21
36
139
14
21
45
147
15
0-
70
%-
-9
13
18
23
28
35
40
45
495
26
269
74
79
909
61
011
06
111
121
12
613
01
341
38
141
14
51
48
150
15
31
55
158
16
0-
60
%-
-1
11
72
22
83
64
24
75
160
68
75
819
39
91
05
110
121
12
713
21
361
40
144
148
15
115
41
57
15
916
21
64
16
618
11
86
-
50
%-
-1
42
12
73
64
34
95
36
775
82
95
10
310
91
211
27
133
138
14
314
71
511
55
158
161
16
316
61
82
18
819
52
00
20
621
12
15
-
40
%-
-1
82
73
74
55
16
57
58
399
10
71
201
28
135
141
14
615
11
551
59
162
166
18
219
01
972
04
210
21
62
21
226
30
33
08
312
31
6-
30
%-
-2
63
84
86
17
59
11
03
113
12
91
37
144
15
115
61
611
65
183
193
20
221
02
172
24
302
308
31
331
83
22
32
633
03
34
33
734
13
44
-
20
%-
-4
15
27
59
71
111
31
14
21
511
58
16
41
861
99
211
221
30
230
93
173
23
329
334
33
934
33
474
23
426
42
94
32
435
43
84
40
442
44
5-
10
%-
-8
212
11
43
15
81
822
06
22
43
113
23
33
33
414
21
427
433
43
744
24
464
49
452
455
45
846
04
624
64
466
48
04
80
480
48
04
80
480
48
0-
20
kV
A /
18
kW
100
%-
--
57
10
12
15
18
20
222
62
731
34
38
404
34
547
49
51
526
06
467
70
73
767
98
19
09
3-
-
90
%-
--
69
11
14
17
20
23
262
83
236
39
42
454
74
951
53
61
656
97
276
79
81
909
49
71
00
103
--
80
%-
--
71
01
31
72
02
32
630
34
38
424
44
749
51
53
636
87
275
79
82
919
59
91
02
105
10
81
11
120
--
70
%-
--
91
21
62
02
32
73
236
41
44
475
05
260
66
70
757
88
292
96
100
10
410
81
11
12
012
41
27
13
013
3-
-
60
%-
--
11
16
20
25
28
34
39
434
75
052
63
69
747
88
293
98
103
10
711
11
201
24
128
13
21
36
139
14
21
45
147
--
50
%-
--
14
19
25
30
37
42
46
505
36
572
77
82
9410
01
051
10
120
125
13
013
41
381
41
145
14
81
51
153
15
61
58
160
--
40
%-
--
19
26
32
40
46
50
60
687
68
295
102
108
11
312
51
311
36
140
144
14
815
21
551
58
161
16
31
65
180
18
61
92
197
--
30
%-
--
26
36
44
50
62
73
81
961
04
111
12
513
21
381
44
149
153
15
716
11
641
67
185
193
19
920
62
12
21
722
22
27
30
430
8-
-
20
%-
--
42
50
68
80
99
11
01
261
36
14
41
501
56
161
166
18
619
62
052
13
221
300
30
631
23
173
22
326
33
13
34
338
34
23
45
420
--
10
%-
--
90
11
11
36
149
16
01
80
199
21
53
00
311
32
032
83
363
42
420
425
42
943
34
374
40
444
446
44
945
24
54
45
645
84
60
46
246
3-
-
Ru
n ti
me
s in
th
is ta
ble
are
app
roxi
ma
te. T
hey
are
ba
sed
on
ne
w, f
ully
ch
arg
ed
sta
nda
rd b
atte
ry m
od
ule
s a
t a te
mpe
ratu
re o
f 25
°C (
77°F
) w
ith 1
00
% r
esis
tive
UP
S lo
adi
ng
.
Specifications
87 Liebert® APS™
Tab
le 4
51
6-b
ay, s
ing
le-p
has
e,
tran
sfo
rmer
-ba
sed
un
it T
yp
e B
(&
UP
S m
od
el n
um
ber
6 =
B)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5 k
VA
/4.
5 k
W
10
0%
-5
15
263
84
760
74
90
10
211
11
271
36
143
14
91
55
160
16
41
80
190
19
92
07
215
22
23
00
306
31
13
16
320
32
532
93
323
36
339
342
90%
-6
17
284
25
169
81
100
11
112
81
371
45
152
15
71
62
167
18
81
98
208
21
62
23
302
30
83
14
319
32
43
28
332
33
634
03
433
46
421
424
80%
-7
19
344
76
378
98
110
12
813
91
471
54
160
16
51
86
197
20
82
17
225
30
43
11
317
32
23
27
332
33
63
40
344
34
742
34
264
28
431
434
70%
-9
23
405
17
495
110
129
14
115
01
571
63
183
19
62
08
218
22
73
07
314
32
13
27
332
33
73
41
345
42
14
25
428
43
143
44
364
39
441
443
60%
-1
12
746
67
91
10
913
01
431
53
160
167
19
420
82
19
30
131
03
18
32
533
13
37
34
23
474
23
42
74
304
34
43
74
394
42
444
447
44
945
14
53
50%
-1
43
552
80
107
13
114
51
561
64
190
207
22
130
43
14
32
333
03
37
34
342
04
25
42
94
334
37
44
04
434
46
44
84
514
53
455
457
45
946
14
62
40%
-1
84
473
104
132
14
916
01
852
06
222
308
31
932
93
37
34
442
24
28
43
343
74
41
44
44
484
51
45
34
564
58
46
04
624
64
466
467
48
048
04
80
30%
-2
55
31
00
134
154
16
720
52
263
14
327
337
34
642
64
32
43
844
34
47
45
145
44
57
46
04
624
65
46
74
804
80
48
04
804
80
480
480
48
048
04
80
20%
-4
09
41
40
163
206
30
632
63
404
24
433
440
44
745
24
57
46
046
44
67
48
048
04
80
48
04
804
80
48
04
804
80
48
04
804
80
480
480
48
048
04
80
10%
-8
11
572
22
331
426
44
145
14
594
66
480
480
48
048
04
80
48
048
04
80
48
048
04
80
48
04
804
80
48
04
804
80
48
04
804
80
480
480
48
048
04
80
10 k
VA
/9
kW
10
0%
--
510
15
20
263
13
843
48
51
616
87
480
91
97
10
310
81
12
12
31
281
33
13
71
401
44
14
71
501
53
156
158
16
016
31
65
90%
--
611
17
23
283
74
347
51
62
707
68
295
101
10
71
12
123
12
91
34
138
14
21
46
149
15
21
55
158
16
116
31
651
67
185
190
80%
--
713
20
27
354
24
752
64
72
799
29
91
06
112
12
41
30
135
14
01
44
148
15
21
55
158
16
11
64
166
18
218
91
942
00
205
210
70%
--
916
23
32
414
75
266
75
83
9710
51
12
12
513
11
37
14
214
71
51
15
51
591
62
16
51
671
86
19
32
002
06
211
216
22
122
63
02
60%
--
11
202
83
947
53
69
799
41
031
11
125
13
31
39
145
15
01
55
159
16
21
66
183
19
11
99
206
21
22
18
223
30
130
53
103
14
318
322
50%
--
14
253
74
753
72
83
10
011
01
261
34
142
14
81
54
159
16
31
67
187
19
72
05
213
21
92
26
304
30
93
14
319
32
332
73
313
34
338
341
40%
--
19
324
66
076
95
108
12
513
61
451
52
158
16
31
80
192
20
32
12
221
30
03
07
313
31
93
24
329
33
33
37
341
34
542
04
234
26
429
431
30%
--
26
446
28
11
04
125
138
14
915
71
641
85
199
21
22
22
304
31
23
19
326
33
23
37
342
34
64
22
426
42
94
33
436
43
844
14
434
46
448
450
20%
--
41
679
81
261
43
156
165
19
521
32
273
11
321
33
03
38
344
42
24
27
432
43
64
40
443
44
74
49
452
45
44
57
459
46
146
34
644
66
467
480
10%
--
83
13
515
91
972
26
319
335
34
742
84
364
43
449
45
34
57
461
46
44
67
480
48
04
80
480
48
04
80
480
48
04
80
480
48
048
04
804
80
480
480
15 k
VA
/1
3.5
kW
10
0%
--
-5
81
115
18
22
262
83
438
42
45
485
05
26
16
67
07
47
88
19
19
599
10
31
061
09
112
121
12
512
8-
90%
--
-6
91
317
21
25
283
43
943
46
49
515
36
57
07
47
88
29
29
71
01
105
10
91
12
121
12
512
91
321
35
138
-
80%
--
-7
11
16
202
52
835
40
44
475
05
364
70
75
79
83
95
10
01
041
08
11
21
221
26
13
01
341
37
140
143
14
614
8-
70%
--
-9
14
18
232
83
541
45
49
526
37
075
80
91
97
103
10
71
12
122
12
71
31
135
13
91
42
146
14
915
11
541
56
159
-
60%
--
-11
17
23
283
64
247
51
61
697
68
194
100
10
61
11
122
12
81
33
137
14
11
45
149
15
21
55
157
16
016
21
651
67
183
-
50%
--
-14
21
28
374
44
953
68
76
839
71
04
11
012
21
29
13
413
91
44
14
81
521
55
15
91
621
64
16
71
841
91
197
202
20
821
3-
40%
--
-19
27
38
465
26
676
91
100
10
812
21
30
13
714
21
48
15
215
71
60
16
41
671
86
19
32
012
07
21
32
192
24
301
306
31
031
4-
30%
--
-27
40
49
647
79
41
06
122
132
14
014
71
53
15
816
31
67
18
819
82
07
21
42
223
00
30
63
123
17
32
13
263
30
334
337
34
034
4-
20%
--
-43
60
79
10
212
21
361
47
155
162
18
119
52
08
21
930
03
09
31
632
33
29
33
43
393
44
42
04
244
27
43
14
344
37
439
442
44
444
6-
10%
--
-96
130
151
16
419
82
203
09
322
333
34
242
24
29
43
544
04
44
44
845
24
55
45
84
604
63
46
54
674
80
48
04
804
80
480
480
48
048
0-
20 k
VA
/1
8 kW
10
0%
--
--
57
101
21
518
20
22
262
73
134
38
40
43
45
47
49
51
52
60
64
677
07
476
79
81
909
3-
90%
--
--
69
111
41
720
23
26
283
23
640
42
45
47
49
51
53
62
66
69
73
767
98
291
94
97
10
110
4-
80%
--
--
71
013
17
20
232
73
035
38
42
454
75
05
25
36
46
87
27
67
98
292
96
99
10
310
61
091
12
120
-
70%
--
--
91
216
20
23
273
23
741
44
47
505
26
16
67
17
57
98
39
39
71
011
05
10
81
121
21
125
128
13
113
4-
60%
--
--
11
16
202
52
835
40
44
475
05
364
69
75
79
83
94
99
104
10
81
11
121
12
61
30
133
13
714
01
431
45
148
-
50%
--
--
14
20
253
03
743
47
50
536
77
378
83
95
10
110
61
11
12
11
261
31
13
51
391
43
14
61
491
52
154
157
15
916
1-
40%
--
--
19
26
334
14
651
61
70
778
39
71
03
109
12
11
27
132
13
71
42
146
15
01
53
156
15
91
62
164
16
718
31
891
95
200
-
30%
--
--
27
37
455
16
575
83
98
10
712
01
28
13
514
11
46
15
115
51
59
16
21
651
82
19
01
972
04
21
02
162
21
226
303
30
731
1-
20%
--
--
43
52
718
31
021
13
130
139
14
715
31
59
16
418
11
92
20
221
12
19
22
73
053
11
31
73
223
26
33
13
353
39
342
345
42
042
3-
10%
--
--
96
123
14
115
41
641
90
209
223
30
831
83
27
33
534
24
20
42
543
04
34
43
84
414
45
44
84
504
53
45
54
574
59
461
463
46
546
6-
Ru
n tim
es
in th
is ta
ble
are
ap
pro
xim
ate
. Th
ey
are
ba
sed
on
new
, ful
ly c
ha
rge
d s
tan
da
rd b
att
ery
mo
dul
es
at a
tem
pe
ratu
re o
f 2
5°C
(77
°F)
with
10
0%
re
sist
ive
UP
S lo
adin
g.
Specifications
Liebert® APS™ 88
Tab
le 4
61
6-b
ay, s
ing
le-p
has
e,
tran
sfo
rmer
-ba
sed
un
it T
yp
e F
(&
UP
S m
od
el
nu
mb
er
6 =
F)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5 k
VA
/4.
5 k
W
10
0%
-5
14
253
74
753
72
83
10
011
01
251
34
142
14
81
54
159
16
31
67
187
19
62
05
212
21
92
26
303
30
93
14
318
32
332
73
313
34
337
341
90%
-5
16
274
15
067
80
98
10
912
61
351
43
150
15
61
61
165
18
51
95
204
21
32
20
227
30
53
11
317
32
13
26
330
33
433
83
413
44
347
422
80%
-7
19
334
66
076
96
108
12
613
61
451
52
158
16
41
81
193
20
42
13
221
30
13
08
314
31
93
25
329
33
43
38
342
34
542
04
234
26
429
432
70%
-8
22
385
07
192
107
126
13
714
71
551
61
166
19
02
02
213
22
23
02
310
31
73
23
328
33
33
38
342
34
64
21
425
42
843
14
344
36
439
441
60%
-1
02
644
63
81
10
512
51
391
49
157
164
18
620
02
12
22
330
43
12
32
032
63
32
33
73
423
47
42
34
264
30
43
34
364
39
441
444
44
644
84
50
50%
-1
33
250
76
102
12
514
01
521
60
180
197
21
222
43
06
31
632
43
31
33
734
24
20
42
44
284
32
43
64
394
42
44
44
474
49
452
454
45
645
74
59
40%
-1
64
166
97
124
14
215
51
651
93
211
226
31
032
03
29
33
634
34
21
42
643
14
35
43
94
434
46
44
94
514
54
45
64
584
60
462
464
46
546
74
80
30%
-2
25
091
125
146
16
018
92
123
01
316
327
33
734
54
24
43
043
64
40
44
444
84
52
45
54
574
60
46
24
644
66
48
04
804
80
480
480
48
048
04
80
20%
-3
47
91
29
155
187
21
831
23
283
41
423
432
43
944
54
50
45
445
84
61
46
446
74
80
48
04
804
80
48
04
804
80
48
04
804
80
480
480
48
048
04
80
10%
-7
01
462
01
315
341
43
044
24
514
59
464
480
48
048
04
80
48
048
04
80
48
048
04
80
48
04
804
80
48
04
804
80
48
04
804
80
480
480
48
048
04
80
10 k
VA
/9
kW
10
0%
--
510
15
20
263
13
843
47
51
606
77
479
90
96
10
210
71
12
12
21
271
32
13
61
401
43
14
71
501
52
155
158
16
016
2-
90%
--
611
17
22
283
64
247
51
61
697
58
193
100
10
61
11
122
12
71
32
137
14
11
45
148
15
11
54
157
16
016
21
641
66
182
-
80%
--
713
19
26
344
14
751
62
71
789
09
81
04
110
12
21
28
134
13
81
43
147
15
11
54
157
16
01
63
165
16
718
51
911
97
202
-
70%
--
916
23
31
404
75
165
74
81
9510
31
10
12
212
91
35
14
114
51
50
15
41
571
60
16
31
661
83
19
01
962
02
208
213
21
822
3-
60%
--
11
192
73
846
52
67
779
21
011
09
123
13
11
37
143
14
81
53
157
16
11
64
167
18
71
95
202
20
82
14
220
22
530
23
073
11
315
-
50%
--
14
253
64
652
70
81
9810
81
231
32
139
14
61
52
157
16
11
65
182
19
22
00
208
21
52
22
300
30
53
10
315
32
032
43
283
31
335
-
40%
--
18
304
45
273
91
105
12
113
21
411
49
155
16
11
65
186
19
72
06
215
22
33
02
308
31
43
20
325
32
93
33
337
34
134
44
204
23
425
-
30%
--
25
425
37
71
00
120
134
14
415
31
601
66
191
20
42
15
225
30
53
13
320
32
63
32
337
34
13
46
422
42
54
28
432
43
443
74
404
42
444
-
20%
--
38
619
11
121
37
150
161
18
220
12
173
02
312
32
23
30
337
34
34
21
426
43
04
34
438
44
14
45
447
45
04
52
455
45
745
94
614
62
464
-
10%
--
75
12
415
11
672
10
305
322
33
634
74
274
35
441
44
64
51
455
45
84
62
464
46
74
80
480
48
04
80
480
48
04
80
480
48
048
04
804
80
480
-
15 k
VA
/1
3.5
kW
10
0%
--
-5
81
115
18
22
262
83
338
41
45
475
05
26
06
57
07
47
78
19
09
498
10
21
051
09
112
121
12
412
7-
90%
--
-6
91
317
21
25
283
43
842
46
48
515
36
46
97
47
88
19
19
61
00
104
10
81
11
120
12
412
81
311
34
137
-
80%
--
-7
11
16
202
52
834
39
43
475
05
263
69
74
78
82
93
98
103
10
71
11
121
12
51
29
132
13
613
91
421
45
147
-
70%
--
-9
13
18
232
83
540
45
49
526
26
974
79
90
96
101
10
61
11
121
12
61
30
134
13
81
41
145
14
815
01
531
55
158
-
60%
--
-11
17
22
283
64
247
51
60
687
58
193
99
10
51
10
121
12
71
32
136
14
01
44
148
15
11
54
157
15
916
21
641
66
181
-
50%
--
-14
21
27
364
34
953
67
75
829
51
03
10
912
11
27
13
313
81
43
14
71
511
55
15
81
611
63
16
61
821
88
195
200
20
621
1-
40%
--
-18
27
37
455
16
575
83
99
10
712
01
28
13
514
11
46
15
115
51
59
16
21
661
82
19
01
972
04
21
02
162
21
226
303
30
831
2-
30%
--
-26
38
48
617
59
11
03
113
129
13
714
41
51
15
616
11
65
18
319
32
02
21
02
172
24
30
23
083
13
31
83
223
26
330
334
33
734
1-
20%
--
-41
52
75
9711
11
311
42
151
158
16
418
61
99
21
122
13
02
30
931
73
23
32
93
343
39
34
33
474
23
42
64
294
32
435
438
44
044
2-
10%
--
-82
121
143
15
818
22
062
24
311
323
33
334
14
21
42
743
34
37
44
244
64
49
45
24
554
58
46
04
624
64
46
64
804
80
480
480
48
048
0-
20 k
VA
/1
8 kW
10
0%
--
--
57
101
21
518
20
22
262
73
134
38
40
43
45
47
49
51
52
60
64
677
07
376
79
81
90-
-
90%
--
--
69
111
41
720
23
26
283
23
639
42
45
47
49
51
53
61
65
69
72
767
98
190
94
97
10
0-
-
80%
--
--
71
013
17
20
232
63
034
38
42
444
74
95
15
36
36
87
27
57
98
291
95
99
10
210
51
081
11
--
70%
--
--
91
216
20
23
273
23
641
44
47
505
26
06
67
07
57
88
29
29
61
001
04
10
81
111
20
124
127
13
0-
-
60%
--
--
11
16
202
52
834
39
43
475
05
263
69
74
78
82
93
98
103
10
71
11
120
12
41
28
132
13
613
91
421
45
--
50%
--
--
14
19
253
03
742
46
50
536
57
277
82
94
10
010
51
10
12
01
251
30
13
41
381
41
14
51
481
51
153
156
15
8-
-
40%
--
--
19
26
324
04
650
60
68
768
29
51
02
108
11
31
25
131
13
61
40
144
14
81
52
155
15
81
61
163
16
518
01
861
92
--
30%
--
--
26
36
445
06
273
81
96
10
411
11
25
13
213
81
44
14
915
31
57
16
11
641
67
18
51
931
99
20
62
122
17
222
227
30
4-
-
20%
--
--
42
50
688
09
91
10
126
136
14
415
01
56
16
116
61
86
19
620
52
13
22
13
003
06
31
23
173
22
32
63
313
34
338
342
34
5-
-
10%
--
--
90
111
13
614
91
601
80
199
215
30
031
13
20
32
833
63
42
42
042
54
29
43
34
374
40
44
44
464
49
45
24
544
56
458
460
46
2-
-
Run
tim
es
in th
is ta
ble
are
ap
pro
xim
ate
. T
he
y a
re b
ase
d o
n n
ew,
fully
ch
arg
ed
sta
nd
ard
ba
tter
y m
odu
les
at
a t
emp
era
ture
of
25
°C (
77
°F)
with
10
0%
re
sist
ive
UP
S lo
adin
g.
Specifications
89 Liebert® APS™
7.5 Estimated Battery Run Times
7.5.1 Tables for UPS Model Number Where Digits 1-3 are AS5 or ASETa
ble
47
10-b
ay,
tw
o-p
has
e, n
o t
ran
sfo
rme
r u
nit
Ty
pe
N (
& U
PS
mo
del
nu
mb
er
6 =
N)
UP
SR
ati
ng
Lo
ad
L
ev
el
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
2
5 k
VA
/4
.5 k
W
10
0%5
1526
3948
6275
921
04
11
31
29
13
81
45
15
11
57
16
11
65
18
41
94
20
32
11
21
82
25
30
33
09
31
43
19
323
327
331
335
338
90
%6
1828
4352
7183
10
31
13
13
01
39
14
71
54
15
91
64
18
21
93
20
32
12
22
02
27
30
53
11
31
73
22
32
73
31
335
339
342
346
421
80
%7
2036
4866
811
01
11
31
32
14
21
50
15
71
62
16
71
92
20
32
13
22
23
01
30
93
15
32
13
26
33
13
36
34
03
44
347
422
426
428
431
70
%9
2542
5377
991
13
13
31
44
15
31
60
16
61
90
20
32
14
22
43
05
31
23
19
32
53
31
33
63
41
34
54
21
42
54
28
431
434
437
439
442
60
%11
2848
7196
11
31
35
14
71
56
16
41
87
20
32
16
22
73
08
31
73
24
33
13
37
34
23
47
42
34
27
43
14
34
43
84
40
443
446
448
450
452
50
%15
3861
911
12
13
71
50
16
11
82
20
12
17
30
23
13
32
23
30
33
73
43
42
14
26
43
04
34
43
84
42
44
54
47
45
04
52
455
457
459
461
462
40
%20
4779
11
11
39
15
51
66
19
92
18
30
53
18
32
83
37
34
54
23
42
94
34
43
94
43
44
64
50
45
34
55
45
84
60
46
24
64
466
480
480
480
480
30
%27
671
09
14
31
61
19
52
20
31
13
26
33
73
47
42
74
34
44
04
45
44
94
53
45
74
60
46
24
65
46
74
80
48
04
80
48
04
80
480
480
480
480
480
20
%45
10
61
50
18
82
25
32
13
39
42
44
34
44
24
49
45
44
59
46
34
67
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
480
480
480
480
480
10
%1
01
16
73
14
34
74
38
45
14
60
46
74
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
480
480
480
480
480
10
kV
A /
9 k
W
10
0%-
510
1621
2632
3944
4852
6269
7681
93
99
10
41
09
12
01
25
13
01
34
13
81
42
14
51
49
152
154
157
159
162
90
%-
611
1823
2837
4348
5264
7178
8396
10
31
08
11
31
25
13
01
35
14
01
44
14
71
51
15
41
57
159
162
164
166
182
80
%-
714
2027
3643
4852
6674
8194
10
11
08
11
31
26
13
21
37
14
21
46
15
01
53
15
71
60
16
21
65
167
186
192
198
203
70
%-
917
2533
4248
5368
7791
10
01
07
12
01
27
13
41
39
14
41
49
15
31
57
16
01
63
16
61
83
19
11
97
204
209
215
220
225
60
%-
1221
3041
4860
7281
971
06
12
01
28
13
61
42
14
81
53
15
71
61
16
41
80
18
91
97
20
42
11
21
72
22
300
305
309
314
318
50
%-
1526
3948
6275
921
04
11
31
30
13
81
45
15
11
57
16
11
66
18
51
95
20
32
11
21
92
25
30
33
09
31
43
19
323
328
331
335
338
40
%-
2035
4865
801
01
11
31
31
14
11
49
15
61
62
16
71
91
20
22
12
22
13
01
30
83
14
32
03
26
33
03
35
33
93
43
347
422
425
428
431
30
%-
2847
6994
11
11
33
14
51
55
16
21
83
19
92
12
22
33
05
31
43
22
32
83
34
34
03
45
42
14
25
42
94
33
43
64
39
441
444
446
449
451
20
%-
4676
10
81
36
15
21
64
19
32
13
30
13
14
32
53
34
34
24
20
42
64
32
43
64
40
44
44
48
45
14
53
45
64
58
46
14
63
465
466
480
480
480
10
%-
10
41
48
18
42
22
31
93
36
42
24
32
44
14
47
45
34
58
46
24
66
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
480
480
480
480
480
15
kV
A /
13
.5 k
W
10
0%-
-5
811
1518
2226
2835
3942
4548
50
53
62
67
71
75
79
82
92
97
10
11
04
107
111
113
123
-
90
%-
-6
1014
1821
2628
3540
4347
4952
61
67
71
76
80
83
94
99
10
31
07
11
01
13
123
127
131
134
-
80
%-
-8
1216
2126
3036
4145
4851
6066
72
77
81
92
97
10
21
06
11
01
20
12
41
28
13
213
613
914
214
5-
70
%-
-9
1419
2530
3742
4650
5365
7277
82
94
10
01
05
11
01
20
12
51
30
13
41
38
14
11
45
148
151
153
156
-
60
%-
-12
1823
3038
4448
5264
7278
9097
10
41
09
12
01
26
13
11
36
14
01
44
14
81
51
15
41
57
160
162
165
167
-
50
%-
-16
2230
3946
5162
7279
931
01
10
81
20
12
71
33
13
81
43
14
81
52
15
51
59
16
21
65
16
71
85
192
198
204
209
-
40
%-
-20
2840
4853
7180
961
05
11
31
28
13
51
41
14
71
52
15
61
60
16
41
67
18
71
95
20
32
09
21
62
21
227
304
308
313
-
30
%-
-28
4351
7082
10
11
12
12
91
38
14
61
52
15
81
63
16
71
90
20
02
09
21
72
24
30
33
09
31
53
20
32
53
29
333
337
341
344
-
20
%-
-46
6792
10
91
31
14
31
53
16
11
67
19
52
09
22
03
02
31
13
19
32
63
32
33
83
43
34
74
23
42
74
31
43
44
37
440
443
445
447
-
10
%-
-1
06
14
01
58
18
82
14
30
63
21
33
33
43
42
44
31
43
74
42
44
74
51
45
44
58
46
04
63
46
54
80
48
04
80
48
04
80
480
480
480
480
-
Run
tim
es in
this
ta
ble
are
ap
pro
xim
ate
. Th
ey
are
ba
sed
on n
ew
, fu
lly c
harg
ed
sta
nd
ard
ba
ttery
mo
dule
s a
t a
tem
pe
ratu
re o
f 2
5°C
(7
7°F
) w
ith 1
00%
re
sist
ive
UP
S lo
ad
ing.
Specifications
Liebert® APS™ 90
Tab
le 4
810
-ba
y, t
wo
-ph
ase
, n
o t
ran
sfo
rmer
un
it T
yp
e R
(&
UP
S m
od
el n
um
be
r 6
= R
)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
2
5 k
VA
/4.
5 kW
100
%5
16
26
39
48
62
76
93
10
41
20
13
01
38
14
51
52
15
71
62
16
61
85
19
52
04
21
22
19
22
63
04
30
93
14
31
93
24
32
83
32
33
53
39
90
%6
18
28
43
52
71
83
10
21
13
13
01
39
14
71
54
15
91
64
18
11
93
20
32
11
21
92
27
30
53
11
31
73
22
32
73
31
33
53
39
34
23
45
42
0
80
%7
20
35
48
65
80
10
01
13
13
11
41
14
91
56
16
21
67
19
02
02
21
22
21
30
13
08
31
43
20
32
53
30
33
53
39
34
33
46
42
24
25
42
84
31
70
%9
25
41
52
76
98
11
21
32
14
31
52
15
91
65
18
82
01
21
22
22
30
33
11
31
83
24
33
03
35
34
03
44
42
04
24
42
74
30
43
34
36
43
84
41
60
%11
28
47
69
94
11
11
33
14
51
55
16
31
83
19
92
12
22
43
06
31
43
22
32
93
35
34
03
45
42
14
26
42
94
33
43
64
39
44
24
44
44
74
49
45
1
50
%14
37
53
83
11
01
34
14
81
59
16
71
96
21
22
26
30
93
18
32
73
34
34
03
46
42
34
28
43
24
36
43
94
43
44
54
48
45
14
53
45
54
57
45
94
61
40
%19
46
76
10
81
36
15
21
63
19
22
12
30
03
13
32
43
33
34
14
20
42
64
31
43
64
40
44
44
47
45
04
53
45
64
58
46
04
62
46
44
66
48
04
80
48
0
30
%26
62
10
41
38
15
71
85
21
23
04
31
93
32
34
24
22
42
94
36
44
14
46
45
04
53
45
74
60
46
24
65
46
74
80
48
04
80
48
04
80
48
04
80
48
04
80
20
%42
99
14
41
66
21
43
12
33
13
45
42
84
37
44
44
50
45
54
59
46
34
66
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
10
%91
16
03
01
33
74
30
44
44
55
46
24
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
0
10 k
VA
/ 9
kW
100
%-
51
01
62
12
63
23
94
448
5263
7076
8193
991
05
10
91
20
12
51
30
13
51
39
14
21
46
14
91
52
15
51
57
16
0-
90
%-
61
21
82
33
03
84
44
852
6472
7890
971
03
10
91
20
12
61
31
13
61
40
14
41
48
15
11
54
15
71
60
16
21
65
16
7-
80
%-
81
42
12
73
64
34
85
266
7481
941
02
10
81
20
12
61
32
13
71
42
14
61
50
15
41
57
16
01
63
16
51
80
18
71
93
19
9-
70
%-
91
72
53
34
24
85
36
877
911
00
10
71
20
12
71
34
13
91
44
14
91
53
15
71
60
16
31
66
18
31
91
19
72
04
20
92
15
22
0-
60
%-
11
20
28
40
48
53
71
80
961
05
11
31
28
13
51
41
14
71
52
15
61
60
16
41
67
18
71
95
20
32
09
21
62
21
22
73
04
30
83
13
-
50
%-
15
26
38
48
61
74
91
10
31
12
12
81
37
14
41
50
15
61
60
16
51
82
19
22
01
20
92
16
22
33
01
30
73
12
31
73
22
32
63
30
33
3-
40
%-
20
34
47
63
78
98
11
11
29
13
91
47
15
41
60
16
51
86
19
82
08
21
72
25
30
53
11
31
73
23
32
83
32
33
73
41
34
44
20
42
34
26
-
30
%-
27
46
67
91
10
91
30
14
31
52
16
01
67
19
42
07
21
93
01
31
03
18
32
53
31
33
73
42
34
64
23
42
74
30
43
34
36
43
94
42
44
44
47
-
20
%-
44
73
10
51
33
14
91
61
18
72
07
22
43
09
32
03
30
33
83
45
42
34
29
43
34
38
44
24
45
44
84
51
45
44
56
45
94
61
46
34
65
46
64
80
-
10
%-
10
01
45
16
72
16
31
43
33
34
64
29
43
84
45
45
14
56
46
04
64
46
74
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
-
15 k
VA
/1
3.5
kW
100
%-
-5
81
11
51
82
22
628
3539
4245
4850
5362
6771
7579
8292
971
00
10
41
07
11
11
13
12
3-
90
%-
-6
10
14
18
22
26
30
3540
4447
5052
6167
7276
8090
9499
10
31
07
11
01
20
12
41
27
13
11
34
-
80
%-
-8
12
16
21
26
30
36
4145
4851
6066
7277
8192
971
02
10
61
10
12
01
24
12
81
32
13
61
39
14
21
45
-
70
%-
-9
14
19
25
30
37
42
4650
5365
7277
8294
10
01
05
11
01
20
12
51
30
13
41
38
14
11
45
14
81
51
15
31
56
-
60
%-
-1
21
82
33
03
84
44
852
6472
7890
971
03
10
91
20
12
61
31
13
61
40
14
41
48
15
11
54
15
71
60
16
21
64
16
7-
50
%-
-1
52
22
83
94
55
06
271
7992
10
01
07
11
31
26
13
21
38
14
31
47
15
11
55
15
81
61
16
41
67
18
41
91
19
72
03
20
8-
40
%-
-2
02
84
04
75
37
07
995
10
41
12
12
61
34
14
01
46
15
11
55
15
91
63
16
61
85
19
32
00
20
72
14
21
92
25
30
23
07
31
1-
30
%-
-2
84
25
06
88
09
91
10
12
61
36
14
41
51
15
61
61
16
61
86
19
62
05
21
42
21
30
03
06
31
23
17
32
23
27
33
13
35
33
83
42
-
20
%-
-4
56
58
31
07
12
81
41
15
11
59
16
51
90
20
42
16
22
63
07
31
53
22
32
93
34
34
03
44
42
14
25
42
84
32
43
54
38
44
04
43
44
5-
10
%-
-1
02
13
61
55
18
02
07
30
03
16
32
93
39
42
04
27
43
34
39
44
44
48
45
24
55
45
84
61
46
34
66
48
04
80
48
04
80
48
04
80
48
04
80
-
Ru
n tim
es
in th
is ta
ble
are
ap
pro
xim
ate
. Th
ey
are
ba
sed
on
new
, ful
ly c
ha
rge
d s
tan
da
rd b
att
ery
mo
dul
es
at a
tem
pe
ratu
re o
f 2
5°C
(77
°F)
with
10
0%
re
sist
ive
UP
S lo
adin
g.
Specifications
91 Liebert® APS™
Tab
le 4
910
-ba
y, t
wo
-ph
ase,
no
tra
nsf
orm
er
un
it T
yp
e B
(&
UP
S m
od
el n
um
be
r 6
= B
)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
2
5 k
VA
/4
.5 k
W
100
%-
51
52
63
94
86
27
59
21
041
131
29
13
81
45
15
11
57
16
11
65
18
41
94
20
32
11
21
82
25
30
33
09
31
43
19
32
33
27
33
13
35
90
%-
61
82
84
35
27
18
31
031
131
301
39
14
71
54
15
91
64
18
21
93
20
32
12
22
02
27
30
53
11
31
73
22
32
73
31
33
53
39
34
23
46
80
%-
72
03
64
86
68
11
011
131
321
421
50
15
71
62
16
71
92
20
32
13
22
23
01
30
93
15
32
13
26
33
13
36
34
03
44
34
74
22
42
64
28
70
%-
92
54
25
37
79
91
131
331
441
531
60
16
61
90
20
32
14
22
43
05
31
23
19
32
53
31
33
63
41
34
54
21
42
54
28
43
14
34
43
74
39
60
%-
11
28
48
71
96
113
135
147
156
164
18
72
03
21
62
27
30
83
17
32
43
31
33
73
42
34
74
23
42
74
31
43
44
38
44
04
43
44
64
48
45
0
50
%-
15
38
61
91
112
137
150
161
182
201
21
73
02
31
33
22
33
03
37
34
34
21
42
64
30
43
44
38
44
24
45
44
74
50
45
24
55
45
74
59
46
1
40
%-
20
47
79
111
139
155
166
199
218
305
31
83
28
33
73
45
42
34
29
43
44
39
44
34
46
45
04
53
45
54
58
46
04
62
46
44
66
48
04
80
48
0
30
%-
27
67
109
143
161
195
220
311
326
337
34
74
27
43
44
40
44
54
49
45
34
57
46
04
62
46
54
67
48
04
80
48
04
80
48
04
80
48
04
80
48
0
20
%-
45
106
150
188
225
321
339
424
434
442
44
94
54
45
94
63
46
74
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
0
10
%-
101
167
314
347
438
451
460
467
480
480
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
0
10
kV
A /
9 k
W
100
%-
-5
10
16
21
26
32
39
44
48
52
62
69
76
81
93
99
10
41
09
12
01
25
13
01
34
13
81
42
14
51
49
15
21
54
15
71
59
90
%-
-6
11
18
23
28
37
43
48
52
64
71
78
83
96
10
31
08
11
31
25
13
01
35
14
01
44
14
71
51
15
41
57
15
91
62
16
41
66
80
%-
-7
14
20
27
36
43
48
52
66
74
81
94
10
11
08
11
31
26
13
21
37
14
21
46
15
01
53
15
71
60
16
21
65
16
71
86
19
21
98
70
%-
-9
17
25
33
42
48
53
68
77
91
10
01
07
12
01
27
13
41
39
14
41
49
15
31
57
16
01
63
16
61
83
19
11
97
20
42
09
21
52
20
60
%-
-1
22
13
04
14
86
07
28
19
71
06
12
01
28
13
61
42
14
81
53
15
71
61
16
41
80
18
91
97
20
42
11
21
72
22
30
03
05
30
93
14
50
%-
-1
52
63
94
86
27
59
21
041
131
30
13
81
45
15
11
57
16
11
66
18
51
95
20
32
11
21
92
25
30
33
09
31
43
19
32
33
28
33
13
35
40
%-
-2
03
54
86
58
01
011
131
311
411
49
15
61
62
16
71
91
20
22
12
22
13
01
30
83
14
32
03
26
33
03
35
33
93
43
34
74
22
42
54
28
30
%-
-2
84
76
99
41
111
331
451
551
621
83
19
92
12
22
33
05
31
43
22
32
83
34
34
03
45
42
14
25
42
94
33
43
64
39
44
14
44
44
64
49
20
%-
-4
67
61
081
361
521
641
932
133
013
14
32
53
34
34
24
20
42
64
32
43
64
40
44
44
48
45
14
53
45
64
58
46
14
63
46
54
66
48
04
80
10
%-
-1
041
481
842
223
193
364
224
324
414
47
45
34
58
46
24
66
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
48
04
80
Run
tim
es
in th
is ta
ble
are
ap
pro
xim
ate
. T
he
y a
re b
ase
d o
n n
ew,
fully
ch
arg
ed
sta
nd
ard
ba
tter
y m
odu
les
at
a t
emp
era
ture
of
25
°C (
77
°F)
with
10
0%
re
sist
ive
UP
S lo
adin
g.
Specifications
Liebert® APS™ 92
Tab
le 5
01
0-b
ay,
two
-ph
ase
, n
o t
ran
sfo
rmer
un
it T
ype
F (
& U
PS
mo
del
nu
mb
er
6 =
F)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
2
5 k
VA
/4
.5 k
W
10
0%
-5
16
26
394
86
276
93
104
12
01
3013
81
45
152
157
16
21
66
185
19
52
04
212
21
92
26
304
30
93
14
319
32
43
28
332
33
5
90%
-6
18
28
435
27
183
102
113
13
01
3914
71
54
159
164
18
11
93
203
21
12
19
227
30
53
11
317
32
23
27
331
33
53
39
342
34
5
80%
-7
20
35
486
58
01
00
113
131
14
11
4915
61
62
167
190
20
22
12
221
30
13
08
314
32
03
25
330
33
53
39
343
34
64
22
425
42
8
70%
-9
25
41
527
69
81
12
132
143
15
21
5916
51
88
201
212
22
23
03
311
31
83
24
330
33
53
40
344
42
04
24
427
43
04
33
436
43
8
60%
-1
12
84
769
94
111
13
31
4515
51
63
183
199
21
22
2430
63
14
32
232
93
35
34
034
54
21
42
642
94
33
43
64
394
42
44
44
474
49
50%
-1
43
75
383
110
134
14
81
5916
71
96
212
226
30
93
1832
73
34
34
034
64
23
42
843
24
36
43
944
34
45
44
84
514
53
45
54
574
59
40%
-1
94
67
61
08
136
152
16
31
9221
23
00
313
324
33
33
4142
04
26
43
143
64
40
44
444
74
50
45
345
64
58
46
04
624
64
46
64
804
80
30%
-2
66
21
04
13
81
5718
52
12
304
319
33
23
4242
24
29
436
441
44
64
50
453
45
74
60
462
46
54
67
480
48
04
80
480
48
04
80
480
48
0
20%
-4
29
91
44
16
62
1431
23
31
345
428
43
74
4445
04
55
459
463
46
64
80
480
48
04
80
480
48
04
80
480
48
04
80
480
48
04
80
480
48
0
10%
-9
11
603
01
33
74
3044
44
55
462
480
48
04
8048
04
80
480
480
48
04
80
480
48
04
80
480
48
04
80
480
48
04
80
480
48
04
80
480
48
0
10
kV
A /
9 k
W
10
0%
--
51
016
21
26
323
94
448
52
63
707
68
193
99
105
10
91
20
125
13
01
35
139
14
21
46
149
15
21
55
157
-
90%
--
61
218
23
30
384
44
852
64
72
789
09
71
03
10
912
01
26
13
113
61
40
14
414
81
51
15
41
571
60
16
21
65-
80%
--
81
421
27
36
434
85
266
74
81
941
0210
81
20
12
613
21
37
14
214
61
50
15
415
71
60
16
31
651
80
18
71
93-
70%
--
91
725
33
42
485
36
877
91
100
10
71
2012
71
34
13
914
41
49
15
315
71
60
16
316
61
83
19
11
972
04
20
92
15-
60%
--
11
20
284
04
853
71
80
961
0511
31
28
135
141
14
71
52
156
16
01
64
167
18
71
95
203
20
92
16
221
22
73
04
308
-
50%
--
15
26
384
86
174
91
103
11
21
2813
71
44
150
156
16
01
65
182
19
22
01
209
21
62
23
301
30
73
12
317
32
23
26
330
-
40%
--
20
34
476
37
898
111
129
13
91
4715
41
60
165
186
19
82
08
217
22
53
05
311
31
73
23
328
33
23
37
341
34
44
20
423
-
30%
--
27
46
679
110
91
30
143
152
16
01
6719
42
07
219
301
31
03
18
325
33
13
37
342
34
64
23
427
43
04
33
436
43
94
42
444
-
20%
--
44
73
10
51
3314
91
61
187
207
22
43
0932
03
30
338
345
42
34
29
433
43
84
42
445
44
84
51
454
45
64
59
461
46
34
65
466
-
10%
--
100
14
51
67
216
314
33
33
4642
94
38
445
451
45
64
6046
44
67
48
048
04
80
48
048
04
80
48
048
04
80
48
04
804
80
48
04
80-
Run
tim
es in
this
ta
ble
are
ap
pro
xim
ate
. Th
ey
are
ba
sed
on n
ew
, fu
lly c
harg
ed
sta
nd
ard
ba
ttery
mo
dule
s a
t a
tem
pe
ratu
re o
f 2
5°C
(7
7°F
) w
ith 1
00%
re
sist
ive
UP
S lo
ad
ing.
Specifications
93 Liebert® APS™
7.6 Estimated Battery Run Times
7.6.1 Tables for UPS Model Number Where Digits 1-3 are AS6 or ASFTa
ble
51
16
-bay
, tw
o-p
ha
se,
no
tra
ns
form
er,
un
it T
yp
e N
(&
UP
S m
od
el
nu
mb
er
6 =
N)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5kV
A/
4.5
kW
10
0%5
15
263
94
86
275
921
0411
312
91
38
14
51
5115
716
11
65
18
41
9420
321
12
18
22
53
0330
93
14
31
93
23
327
331
33
53
38
34
13
4434
7
90%
61
828
43
52
71
831
03
113
130
139
14
71
54
159
164
182
19
32
03
212
220
227
30
53
11
317
322
32
73
31
33
53
3934
23
46
42
14
23
426
429
80%
72
036
48
66
81
10
11
13
132
142
150
15
71
62
167
192
203
21
32
22
301
309
315
32
13
26
331
336
34
03
44
34
74
2242
64
28
43
14
34
436
438
70%
92
542
53
77
99
11
31
33
144
153
160
16
61
90
203
214
224
30
53
12
319
325
331
33
63
41
345
421
42
54
28
43
14
3443
74
39
44
24
44
446
448
60%
11
28
487
19
611
31
35
14
71
5616
418
72
03
21
62
2730
831
73
24
33
13
3734
234
74
23
42
74
3143
44
38
44
04
43
446
448
45
04
52
45
44
5645
8
50%
15
38
619
11
1213
71
50
16
11
8220
121
73
02
31
33
2233
033
73
43
42
14
2643
043
44
38
44
24
4544
74
50
45
24
55
457
459
46
14
62
46
44
6546
7
40%
20
47
791
111
3915
51
66
19
92
1830
531
83
28
33
73
4542
342
94
34
43
94
4344
645
04
53
45
54
5846
04
62
46
44
66
480
480
48
04
80
48
04
8048
0
30%
27
67
10
91
431
6119
52
20
31
13
2633
734
74
27
43
44
4044
544
94
53
45
74
6046
246
54
67
48
04
8048
04
80
48
04
80
480
480
48
04
80
48
04
8048
0
20%
45
10
61
50
188
225
321
33
94
24
434
442
449
45
44
59
463
467
480
48
04
80
480
480
480
48
04
80
480
480
48
04
80
48
04
8048
04
80
48
04
80
480
480
10%
101
16
73
14
347
438
451
46
04
67
480
480
480
48
04
80
480
480
480
48
04
80
480
480
480
48
04
80
480
480
48
04
80
48
04
8048
04
80
48
04
80
480
480
10kV
A/
9kW
10
0%-
510
16
21
26
3239
44
48
52
6269
76
81
93
991
04
109
120
125
13
01
34
138
142
14
51
49
15
21
5415
71
59
16
21
64
166
180
90%
-6
111
82
32
837
434
85
26
471
788
39
610
31
08
11
31
2513
013
51
40
14
41
4715
11
54
15
71
59
162
164
16
61
82
18
81
9319
8
80%
-7
142
02
73
643
485
26
67
481
941
0110
811
31
26
13
21
3714
214
61
50
15
31
5716
01
62
16
51
67
186
192
19
82
03
20
82
1321
8
70%
-9
172
53
34
248
536
87
79
11
00
10
71
2012
713
41
39
14
41
4915
315
71
60
16
31
6618
31
91
19
72
04
209
215
22
02
25
30
13
0530
9
60%
-1
221
30
41
48
6072
81
97
106
12
01
28
136
142
148
15
31
57
161
164
180
18
91
97
204
211
21
72
22
30
03
0530
93
14
31
83
22
325
329
50%
-1
526
39
48
62
7592
104
113
130
13
81
45
151
157
161
16
61
85
195
203
211
21
92
25
303
309
31
43
19
32
33
2833
13
35
33
83
42
345
347
40%
-2
035
48
65
80
10
11
13
131
141
149
15
61
62
167
191
202
21
22
21
301
308
314
32
03
26
330
335
33
93
43
34
74
2242
54
28
43
14
33
436
438
30%
-2
847
69
94
111
13
31
45
155
162
183
19
92
12
223
305
314
32
23
28
334
340
345
42
14
25
429
433
43
64
39
44
14
4444
64
49
45
14
53
455
456
20%
-4
676
108
136
152
16
41
93
213
301
314
32
53
34
342
420
426
43
24
36
440
444
448
45
14
53
456
458
46
14
63
46
54
6648
04
80
48
04
80
480
480
10%
-1
04
14
81
842
2231
93
36
42
24
3244
144
74
53
45
84
6246
648
04
80
48
04
8048
048
04
80
48
04
8048
04
80
48
04
80
480
480
48
04
80
48
04
8048
0
15kV
A/
13.
5kW
10
0%-
-5
81
11
518
222
62
83
539
424
54
85
053
62
67
71
75
798
29
29
71
01
10
41
07
111
113
12
31
26
13
01
33-
90%
--
61
01
41
821
262
83
54
043
474
95
26
167
71
76
80
83
949
91
0310
71
10
11
31
23
127
131
13
41
40
14
31
45-
80%
--
81
21
62
126
303
64
14
548
516
06
67
277
81
92
97
102
10
61
10
120
124
12
81
32
13
61
3914
21
45
14
81
50
153
-
70%
--
91
41
92
530
374
24
65
053
657
27
78
294
10
01
0511
012
01
25
13
01
3413
81
41
14
51
48
151
153
15
61
58
16
11
63-
60%
--
121
82
33
038
444
85
26
472
789
09
710
41
09
12
01
2613
113
61
40
14
41
4815
11
54
15
71
60
162
165
16
71
84
18
91
95-
50%
--
162
23
03
946
516
27
27
993
10
11
0812
012
71
33
13
81
4314
815
21
55
15
91
6216
51
67
18
51
92
198
204
20
92
15
21
92
24-
40%
--
202
84
04
853
718
09
610
51
13
12
81
3514
114
71
52
15
61
6016
416
71
87
19
52
0320
92
16
22
12
27
304
308
31
33
17
32
13
24-
30%
--
284
35
17
082
10
11
1212
913
81
46
15
21
5816
316
71
90
20
02
0921
722
43
03
30
93
1532
03
25
32
93
33
337
341
34
43
47
42
24
25-
20%
--
466
79
210
91
31
14
31
5316
116
71
95
20
92
2030
231
13
19
32
63
3233
834
33
47
42
34
2743
14
34
43
74
40
443
445
44
74
49
45
14
53-
10%
--
10
61
401
5818
82
14
30
63
2133
334
34
24
43
14
3744
244
74
51
45
44
5846
046
34
65
48
04
8048
04
80
48
04
80
480
480
48
04
80
48
04
80-
20kV
A/
18
kW
10
0%-
--
57
10
1215
18
20
23
2628
31
35
38
414
34
64
84
951
53
61
65
68
717
47
78
08
291
94
97
-
90%
--
-6
91
114
182
02
32
628
333
74
04
345
48
50
51
53
636
77
07
47
780
82
92
95
99
10
21
05
107
-
80%
--
-7
10
14
1720
23
27
31
3539
42
45
48
505
26
06
56
973
77
80
83
93
971
01
104
107
11
01
13
12
21
25-
70%
--
-9
13
17
2025
28
33
38
4245
48
51
53
636
87
37
78
190
95
99
103
10
71
10
11
31
2312
71
30
13
31
36
139
-
60%
--
-1
21
62
126
303
64
14
548
516
06
67
277
81
92
97
102
10
61
10
120
124
12
81
32
13
61
3914
21
45
14
81
50
153
-
50%
--
-1
62
12
632
394
44
85
263
707
68
19
399
10
51
1012
012
51
30
13
51
3914
21
46
14
91
52
155
157
16
01
62
16
41
66-
40%
--
-2
12
73
643
485
26
67
481
941
0210
812
01
26
13
21
3714
214
61
50
15
41
5716
01
63
16
51
80
186
192
19
82
04
20
92
14-
30%
--
-2
84
04
853
708
09
510
51
12
12
71
3414
114
61
51
15
61
6016
316
71
86
19
42
0120
82
14
22
02
25
302
307
31
23
16
32
03
23-
20%
--
-4
66
27
797
11
01
2713
814
61
53
15
91
6518
419
62
06
21
52
2330
331
03
16
32
13
2633
13
35
33
93
43
347
422
42
54
28
43
04
33-
10%
--
-1
051
3314
91
61
18
72
0722
430
93
20
33
03
3834
542
34
28
43
34
3844
244
54
48
45
14
5445
64
59
46
14
63
464
466
48
04
80
48
04
80-
Run
tim
es
in th
is ta
ble
are
ap
pro
xim
ate
. T
he
y a
re b
ase
d o
n ne
w,
fully
ch
arg
ed
sta
nd
ard
ba
ttery
mo
dule
s a
t a te
mp
era
ture
of 2
5°C
(7
7°F
) w
ith 1
00
% r
esi
stiv
e U
PS
load
ing.
Specifications
Liebert® APS™ 94
Tab
le 5
21
6-b
ay, t
wo
-ph
ase
, n
o t
ran
sfo
rmer
un
it T
ype
R (
& U
PS
mo
de
l nu
mb
er 6
= R
)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5kV
A/
4.5
kW
100
%5
16
26
39
48
627
69
31
04
120
13
013
81
45
15
21
571
62
166
185
19
52
042
12
219
226
30
43
093
14
319
324
32
833
23
35
339
342
34
542
0
90
%6
18
28
43
52
718
31
02
11
31
301
39
147
15
41
59
164
18
119
32
032
11
219
22
730
53
113
17
322
32
733
13
353
39
342
34
542
04
234
26
429
80
%7
20
35
48
65
8010
01
13
13
11
411
49
156
16
21
67
190
20
221
22
213
01
308
31
432
03
253
30
335
33
934
33
464
22
425
42
843
14
334
36
438
70
%9
25
41
52
76
9811
21
32
14
31
521
59
165
18
82
01
212
22
230
33
113
18
324
33
033
53
403
44
420
42
442
74
304
33
436
43
844
14
434
45
447
60
%11
28
47
69
94
11
113
31
45
15
51
631
83
199
21
22
24
306
31
432
23
293
35
340
34
542
14
264
29
433
43
643
94
424
44
447
44
945
14
534
55
456
50
%14
37
53
83
110
13
414
81
59
16
71
962
12
226
30
93
18
327
33
434
03
464
23
428
43
243
64
394
43
445
44
845
14
534
55
457
45
946
14
624
64
465
40
%19
46
76
10
81
361
52
163
19
22
12
300
31
332
43
33
34
14
204
26
431
436
44
04
444
47
450
453
45
64
584
60
462
464
46
648
04
80
480
480
48
048
0
30
%26
62
10
41
38
157
18
521
23
04
31
93
323
42
422
42
94
36
441
44
645
04
534
57
460
46
246
54
674
80
480
48
048
04
804
80
480
48
048
04
804
80
480
20
%42
99
14
41
66
214
31
233
13
45
42
84
374
44
450
45
54
59
463
46
648
04
804
80
480
48
048
04
804
80
480
48
048
04
804
80
480
48
048
04
804
80
480
10
%91
160
30
13
37
430
44
445
54
62
48
04
804
80
480
48
04
80
480
48
048
04
804
80
480
48
048
04
804
80
480
48
048
04
804
80
480
48
048
04
804
80
480
10
kVA
/9k
W
100
%-
51
01
62
126
32
39
44
48
526
37
07
68
193
99
105
10
91
201
25
130
135
13
91
421
46
149
152
15
515
71
60
162
164
16
618
0
90
%-
61
21
82
330
38
44
48
52
647
27
89
09
71
03
109
120
12
61
311
36
140
144
14
81
511
54
157
160
16
216
51
67
183
189
19
419
9
80
%-
81
42
12
736
43
48
52
66
748
19
41
02
108
12
012
61
321
37
142
14
615
01
541
57
160
16
316
51
801
87
193
19
920
42
092
14
218
70
%-
91
72
53
342
48
53
68
77
9110
01
07
12
01
271
34
139
144
14
91
531
57
160
163
16
61
831
91
197
204
20
921
52
20
225
301
30
530
9
60
%-
11
20
28
40
485
37
18
09
61
05
113
12
81
35
141
14
715
21
561
60
164
16
718
71
952
03
209
21
622
12
273
04
308
31
331
73
213
24
328
50
%-
15
26
38
48
617
49
11
03
112
12
813
71
44
15
01
561
60
165
182
19
22
012
09
216
223
30
13
073
12
317
322
32
633
03
33
337
340
34
334
6
40
%-
20
34
47
63
789
81
11
12
91
391
47
154
16
01
65
186
19
820
82
172
25
305
31
131
73
233
28
332
33
734
13
444
20
423
42
642
94
314
34
436
30
%-
27
46
67
91
10
913
01
43
15
21
601
67
194
20
72
19
301
31
031
83
253
31
337
34
234
64
234
27
430
43
343
64
394
42
444
44
744
94
514
53
454
20
%-
44
73
10
51
331
49
161
18
72
07
224
30
932
03
30
33
83
454
23
429
433
43
84
424
45
448
451
45
44
564
59
461
463
46
546
64
80
480
480
48
048
0
10
%-
100
14
51
67
216
31
433
33
46
42
94
384
45
451
45
64
60
464
46
748
04
804
80
480
48
048
04
804
80
480
48
048
04
804
80
480
48
048
04
804
80
480
15
kVA
/13
.5kW
100
%-
-5
81
115
18
22
26
28
353
94
24
54
850
53
62
67
71
757
98
292
97
10
010
41
071
11
113
12
312
61
301
33
-
90
%-
-6
10
14
182
22
63
03
540
44
47
50
52
616
77
27
68
090
94
99
10
31
071
10
120
124
12
713
11
34
137
140
14
3-
80
%-
-8
12
16
212
63
03
64
145
48
51
60
66
727
78
19
29
71
02
106
110
12
01
241
28
132
136
13
914
21
45
148
150
15
3-
70
%-
-9
14
19
253
03
74
24
650
53
65
72
77
829
41
001
05
110
12
012
51
301
34
138
14
114
51
481
51
153
15
615
81
611
63
-
60
%-
-1
21
82
330
38
44
48
52
647
27
89
09
71
03
109
120
12
61
311
36
140
144
14
81
511
54
157
160
16
216
41
67
183
189
19
4-
50
%-
-1
52
22
839
45
50
62
71
799
21
00
10
71
131
26
132
138
14
31
471
51
155
158
16
11
641
67
184
191
19
720
32
08
213
218
22
3-
40
%-
-2
02
84
047
53
70
79
95
10
411
21
26
13
41
401
46
151
155
15
91
631
66
185
193
20
02
072
14
219
225
30
230
73
11
315
319
32
3-
30
%-
-2
84
25
068
80
99
11
01
261
36
144
15
11
56
161
16
618
61
962
05
214
22
130
03
063
12
317
32
232
73
313
35
338
34
234
54
204
23
-
20
%-
-4
56
58
31
07
128
14
11
51
159
16
519
02
04
21
62
263
07
315
322
32
93
343
40
344
421
42
54
284
32
435
438
44
044
34
45
447
449
45
1-
10
%-
-1
02
13
61
551
80
207
30
03
16
329
33
942
04
27
43
34
394
44
448
452
45
54
584
61
463
466
48
04
804
80
480
480
48
048
04
80
480
480
48
0-
20
kVA
/1
8kW
100
%-
--
57
101
21
51
82
023
26
28
32
35
384
14
44
64
850
52
53
616
569
72
75
788
083
92
95
--
90
%-
--
69
111
41
82
02
326
28
33
37
40
434
54
85
05
153
63
67
707
477
80
83
929
599
102
105
--
80
%-
--
71
014
17
20
23
27
313
53
94
24
548
50
52
60
65
697
37
780
83
939
71
001
04
107
11
011
31
22-
-
70
%-
--
91
317
20
25
28
33
384
24
54
85
053
63
68
73
77
809
09
599
103
10
711
01
131
23
126
13
013
31
36-
-
60
%-
--
11
16
202
52
83
64
145
48
51
53
66
717
68
19
19
71
01
106
110
11
31
241
28
132
135
13
914
21
45
147
150
--
50
%-
--
15
20
263
23
94
44
852
62
69
75
81
929
91
041
09
113
12
513
01
341
38
142
14
514
81
511
54
157
15
916
11
64-
-
40
%-
--
20
27
354
24
85
26
573
80
93
10
11
071
13
125
131
13
61
411
45
149
153
15
61
591
62
165
167
18
419
11
97
202
207
--
30
%-
--
28
39
475
36
97
99
41
03
111
12
51
33
139
14
515
01
551
59
162
16
618
31
911
98
205
21
221
82
233
00
305
31
031
43
18-
-
20
%-
--
46
60
769
51
08
12
51
361
44
152
15
81
63
180
19
220
22
122
20
300
30
631
33
183
24
328
33
333
73
413
44
420
42
342
64
28-
-
10
%-
--
10
21
291
46
159
18
02
01
218
30
431
63
26
33
43
414
20
425
430
43
54
394
43
446
449
45
24
544
57
459
461
46
346
44
66
480
480
--
Run
tim
es in
this
ta
ble
are
ap
pro
xim
ate
. Th
ey
are
ba
sed
on n
ew
, fu
lly c
harg
ed
sta
nd
ard
ba
ttery
mo
dule
s a
t a
tem
pe
ratu
re o
f 2
5°C
(7
7°F
) w
ith 1
00%
re
sist
ive
UP
S lo
ad
ing.
Specifications
95 Liebert® APS™
Tab
le 5
31
6-b
ay, t
wo
-ph
ase
, n
o t
ran
sfo
rmer
un
it T
ype
B (
& U
PS
mo
de
l nu
mb
er 6
= B
)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5kV
A/
4.5
kW
100
%-
51
52
63
948
62
75
92
104
11
31
29
13
81
45
151
157
161
16
51
84
19
42
03
211
218
225
30
33
09
31
43
19
323
327
331
33
53
38
34
13
44
90
%-
61
82
84
352
71
83
103
113
13
01
39
14
71
54
159
164
182
19
32
03
21
22
20
227
305
311
31
73
22
32
73
31
335
339
342
34
64
21
42
34
26
80
%-
72
03
64
866
81
101
113
132
14
21
50
15
71
62
167
192
203
21
32
22
30
13
09
315
321
326
33
13
36
34
03
44
347
422
426
42
84
31
43
44
36
70
%-
92
54
25
377
99
113
133
144
15
31
60
16
61
90
203
214
224
30
53
12
31
93
25
331
336
341
34
54
21
42
54
28
431
434
437
43
94
42
44
44
46
60
%-
11
28
48
71
961
13
135
147
156
16
41
87
20
32
16
227
308
317
32
43
31
33
73
42
347
423
427
43
14
34
43
84
40
443
446
448
45
04
52
45
44
56
50
%-
15
38
61
91
11
21
37
150
161
182
20
12
17
30
23
13
322
330
337
34
34
21
42
64
30
434
438
442
44
54
47
45
04
52
455
457
459
46
14
62
46
44
65
40
%-
20
47
79
11
11
39
15
51
661
9921
83
05
31
83
28
33
73
454
2342
94
34
43
94
43
44
64
504
5345
54
58
46
04
62
46
44
6648
048
04
80
48
04
80
48
0
30
%-
27
67
109
14
31
61
19
52
203
1132
63
37
34
74
27
43
44
404
4544
94
53
45
74
60
46
24
654
6748
04
80
48
04
80
48
04
8048
048
04
80
48
04
80
48
0
20
%-
45
106
150
18
82
25
32
13
394
2443
44
42
44
94
54
45
94
634
6748
04
80
48
04
80
48
04
804
8048
04
80
48
04
80
48
04
8048
048
04
80
48
04
80
48
0
10
%-
101
167
314
34
74
38
45
14
604
6748
04
80
48
04
80
48
04
804
8048
04
80
48
04
80
48
04
804
8048
04
80
48
04
80
48
04
8048
048
04
80
48
04
80
48
0
10kV
A/
9kW
100
%-
-5
10
16
212
63
23
94
44
852
626
97
68
19
39
91
04
10
91
20
125
130
134
13
81
42
14
51
49
152
154
157
15
91
62
16
41
66
90
%-
-6
11
18
232
83
74
34
85
264
717
88
39
610
31
08
11
31
25
13
01
351
4014
41
47
15
11
54
15
71
5916
216
41
66
18
21
88
19
3
80
%-
-7
14
20
273
64
34
85
26
674
819
41
011
0811
31
26
13
21
37
14
21
461
5015
31
57
16
01
62
16
51
6718
619
21
98
20
32
08
21
3
70
%-
-9
17
25
334
24
85
36
87
791
10
01
07
120
127
134
13
91
44
14
91
53
157
160
163
16
61
83
19
11
97
204
209
215
22
02
25
30
13
05
60
%-
-1
22
13
041
48
60
72
81
97
10
61
20
12
81
361
4214
81
53
15
71
61
16
41
801
8919
72
04
21
12
17
22
23
0030
530
93
14
31
83
22
32
5
50
%-
-1
52
63
948
62
75
92
104
11
31
30
13
81
45
151
157
161
16
61
85
19
52
03
211
219
225
30
33
09
31
43
19
323
328
331
33
53
38
34
23
45
40
%-
-2
03
54
865
80
101
113
131
14
11
49
15
61
62
167
191
202
21
22
21
30
13
08
314
320
326
33
03
35
33
93
43
347
422
425
42
84
31
43
34
36
30
%-
-2
84
76
994
11
11
331
4515
51
62
18
31
99
21
22
233
0531
43
22
32
83
34
34
03
454
2142
54
29
43
34
36
43
94
4144
444
64
49
45
14
53
45
5
20
%-
-4
67
61
08
13
61
52
164
193
213
30
13
14
32
53
34
342
420
426
43
24
36
44
04
44
448
451
453
45
64
58
46
14
63
465
466
480
48
04
80
48
04
80
10
%-
-10
414
81
84
22
23
19
336
422
432
44
14
47
45
34
58
462
466
480
48
04
80
48
04
80
480
480
480
48
04
80
48
04
80
480
480
480
48
04
80
48
04
80
15kV
A/
13.
5kW
100
%-
--
58
111
51
82
22
62
835
394
24
54
85
05
362
677
17
57
98
29
297
10
11
04
107
111
113
12
31
26
13
0-
90
%-
--
61
014
18
21
26
28
35
4043
47
49
52
61
67
7176
80
83
94
99
10
31
07
11
01
13
123
127
131
13
41
40
14
3-
80
%-
--
81
216
21
26
30
36
41
4548
51
60
66
72
77
8192
97
102
106
110
12
01
24
12
81
32
136
139
142
14
51
48
15
0-
70
%-
--
91
419
25
30
37
42
46
5053
65
72
77
82
94
10
01
05
11
01
201
2513
01
34
13
81
41
14
51
4815
115
31
56
15
81
61
-
60
%-
--
12
18
233
03
84
44
85
264
727
89
09
710
41
09
12
01
26
13
11
361
4014
41
48
15
11
54
15
71
6016
216
51
67
18
41
89
-
50
%-
--
16
22
303
94
65
16
27
279
931
01
108
120
127
13
31
38
14
31
48
152
155
159
16
21
65
16
71
85
192
198
204
20
92
15
21
9-
40
%-
--
20
28
404
85
37
18
09
61
05
11
31
28
135
141
147
15
21
56
16
01
64
167
187
195
20
32
09
21
62
21
227
304
308
31
33
17
32
1-
30
%-
--
28
43
517
08
21
0111
21
29
13
81
46
15
21
581
6316
71
90
20
02
09
21
72
243
0330
93
15
32
03
25
32
93
3333
734
13
44
34
74
22
-
20
%-
--
46
67
921
09
131
143
153
16
11
67
19
52
09
220
302
311
31
93
26
33
23
38
343
347
423
42
74
31
43
44
37
440
443
445
44
74
49
45
1-
10
%-
--
106
14
01
58
18
82
143
0632
13
33
34
34
24
43
14
374
4244
74
51
45
44
58
46
04
634
6548
04
80
48
04
80
48
04
8048
048
04
80
48
04
80
-
20kV
A/
18kW
100
%-
--
-5
71
01
21
51
82
023
262
83
13
53
84
143
464
84
95
15
36
165
687
17
47
78
08
291
94-
90
%-
--
-6
91
11
41
82
02
326
283
33
74
04
34
548
505
15
36
36
77
074
778
08
29
29
59
91
02
10
5-
80
%-
--
-7
101
41
72
02
32
731
353
94
24
54
85
052
606
56
97
37
78
083
939
71
0110
410
71
10
11
31
22
-
70
%-
--
-9
131
72
02
52
83
338
424
54
85
15
36
368
737
78
19
09
59
91
03
10
71
10
113
123
127
13
01
33
13
6-
60
%-
--
-1
216
21
26
30
36
41
4548
51
60
66
72
77
8192
97
102
106
110
12
01
24
12
81
32
136
139
142
14
51
48
15
0-
50
%-
--
-1
621
26
32
39
44
48
5263
70
76
81
93
99
10
51
10
12
01
251
3013
51
39
14
21
46
14
91
5215
515
71
60
16
21
64
-
40
%-
--
-2
127
36
43
48
52
66
7481
94
102
108
120
12
61
32
13
71
42
146
150
154
15
71
60
16
31
65
180
186
192
19
82
04
20
9-
30
%-
--
-2
840
48
53
70
80
95
10
51
12
12
71
341
4114
61
51
15
61
60
16
31
671
8619
42
01
20
82
14
22
02
2530
230
73
12
31
63
20
-
20
%-
--
-4
662
77
97
110
127
13
81
46
15
31
59
165
184
196
20
62
15
22
33
03
310
316
321
32
63
31
33
53
39
343
347
422
42
54
28
43
0-
10
%-
--
-1
05
13
31
49
161
187
207
22
43
09
32
03
30
338
345
423
42
84
33
43
84
42
445
448
451
45
44
56
45
94
61
463
464
466
48
04
80
48
0-
Run
tim
es in
this
ta
ble
are
ap
pro
xim
ate
. Th
ey
are
ba
sed
on n
ew
, fu
lly c
harg
ed
sta
nd
ard
ba
ttery
mo
dule
s a
t a
tem
pe
ratu
re o
f 2
5°C
(7
7°F
) w
ith 1
00%
re
sist
ive
UP
S lo
ad
ing.
Specifications
Liebert® APS™ 96
Tab
le 5
41
6-b
ay,
two
-ph
ase
, n
o t
ran
sfo
rmer
un
it T
ype
F (
& U
PS
mo
del
nu
mb
er
6 =
F)
UP
SR
ati
ng
Lo
ad
Le
ve
l
# B
att
ery
Str
ing
s
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
5
5kV
A/
4.5
kW
100
%-
51
62
63
948
62
76
93
104
12
01
30
138
145
152
15
71
62
16
61
8519
520
42
12
21
92
26
304
309
31
43
19
32
43
2833
233
53
39
34
23
45
90
%-
61
82
84
352
71
83
102
113
13
01
39
147
154
159
16
41
81
19
32
0321
121
92
27
30
53
11
317
322
32
73
31
33
53
3934
234
54
20
42
34
26
80
%-
72
03
54
865
80
100
113
131
14
11
49
156
162
167
19
02
02
21
22
2130
130
83
14
32
03
25
330
335
33
93
43
34
64
2242
542
84
31
43
34
36
70
%-
92
54
15
276
98
112
132
143
15
21
59
165
188
201
21
22
22
30
33
1131
832
43
30
33
53
40
344
420
42
44
27
43
04
3343
643
84
41
44
34
45
60
%-
112
84
76
994
11
11
3314
515
51
63
18
31
992
1222
43
06
31
43
22
329
335
340
34
54
21
42
64
2943
34
36
43
94
42
444
447
449
45
14
53
45
5
50
%-
143
75
38
31
10
13
41
4815
916
71
96
21
22
263
0931
83
27
33
43
40
346
423
428
43
24
36
43
94
4344
54
48
45
14
53
455
457
459
46
14
62
46
4
40
%-
194
67
61
08
13
61
52
163
192
212
30
03
13
324
333
341
42
04
26
43
14
3644
044
44
47
45
04
53
456
458
46
04
62
46
44
6648
048
04
80
48
04
80
30
%-
266
210
41
38
15
71
85
212
304
319
33
23
42
422
429
436
44
14
46
45
04
5345
746
04
62
46
54
67
480
480
48
04
80
48
04
8048
048
04
80
48
04
80
20
%-
429
914
41
66
21
43
12
331
345
428
43
74
44
450
455
459
46
34
66
48
04
8048
048
04
80
48
04
80
480
480
48
04
80
48
04
8048
048
04
80
48
04
80
10
%-
911
6030
13
37
43
04
44
455
462
480
48
04
80
480
480
480
48
04
80
48
04
8048
048
04
80
48
04
80
480
480
48
04
80
48
04
8048
048
04
80
48
04
80
10
kVA
/9
kW
100
%-
-5
10
16
212
63
23
94
448
526
37
07
68
193
99
105
109
120
12
51
30
13
51
3914
21
46
14
91
52
155
157
160
16
21
64
-
90
%-
-6
12
18
233
03
84
44
852
647
27
89
09
71
03
10
91
2012
613
11
36
14
01
44
148
151
15
41
57
16
01
6216
516
71
83
18
9-
80
%-
-8
14
21
273
64
34
85
266
748
19
410
21
08
12
01
26
132
137
142
14
61
50
15
41
5716
01
63
16
51
80
187
193
199
20
42
09
-
70
%-
-9
17
25
334
24
85
36
877
911
001
0712
01
27
13
41
39
144
149
153
15
71
60
16
31
6618
31
91
19
72
04
209
215
220
22
53
01
-
60
%-
-1
12
02
840
48
53
71
80
961
05
113
128
135
14
11
47
15
21
5616
016
41
67
18
71
95
203
209
21
62
21
22
73
0430
831
33
17
32
1-
50
%-
-1
52
63
848
61
74
91
103
11
21
28
137
144
150
15
61
60
16
51
8219
220
12
09
21
62
23
301
307
31
23
17
32
23
2633
033
33
37
34
0-
40
%-
-2
03
44
763
78
98
111
129
13
91
47
154
160
165
18
61
98
20
82
1722
530
53
11
31
73
23
328
332
33
73
41
34
44
2042
342
64
29
43
1-
30
%-
-2
74
66
791
10
91
3014
315
21
60
16
71
942
0721
93
01
31
03
18
325
331
337
34
23
46
42
34
2743
04
33
43
64
39
442
444
447
44
94
51
-
20
%-
-4
47
31
05
13
31
49
161
187
207
22
43
09
320
330
338
34
54
23
42
94
3343
844
24
45
44
84
51
454
456
45
94
61
46
34
6546
648
04
80
48
0-
10
%-
-1
0014
51
67
21
63
14
333
346
429
43
84
45
451
456
460
46
44
67
48
04
8048
048
04
80
48
04
80
480
480
48
04
80
48
04
8048
048
04
80
48
0-
15
kVA
/1
3.5k
W
100
%-
--
58
111
51
82
22
628
353
94
24
54
850
53
62
67
71
7579
82
92
97
10
01
04
10
71
1111
312
31
26
13
0-
90
%-
--
61
014
18
22
26
30
3540
44
47
50
52
616
77
27
68
090
949
91
0310
71
10
12
01
24
127
131
134
13
71
40
-
80
%-
--
81
216
21
26
30
36
4145
48
51
60
66
727
78
19
29
71
02
10
61
10
120
124
12
81
32
13
61
3914
214
51
48
15
0-
70
%-
--
91
419
25
30
37
42
4650
53
65
72
77
829
41
0010
511
01
20
12
51
30
134
138
14
11
45
14
81
5115
315
61
58
16
1-
60
%-
--
12
18
233
03
84
44
852
647
27
89
09
71
03
10
91
2012
613
11
36
14
01
44
148
151
15
41
57
16
01
6216
416
71
83
18
9-
50
%-
--
15
22
283
94
55
06
271
799
21
0010
71
13
12
61
32
138
143
147
15
11
55
15
81
6116
41
67
18
41
91
197
203
208
21
32
18
-
40
%-
--
20
28
404
75
37
07
995
10
41
121
2613
41
40
14
61
51
155
159
163
16
61
85
19
32
0020
72
14
21
92
25
302
307
311
31
53
19
-
30
%-
--
28
42
506
88
09
911
01
26
13
61
441
5115
61
61
16
61
86
196
205
214
22
13
00
30
63
1231
73
22
32
73
31
335
338
342
34
54
20
-
20
%-
--
45
65
831
07
128
141
151
15
91
65
190
204
216
22
63
07
31
53
2232
933
43
40
34
44
21
425
428
43
24
35
43
84
4044
344
54
47
44
9-
10
%-
--
102
13
61
55
18
02
0730
031
63
29
33
94
204
2743
34
39
44
44
48
452
455
458
46
14
63
46
64
8048
04
80
48
04
80
480
480
480
48
04
80
-
20
kVA
/1
8kW
100
%-
--
-5
71
01
21
51
820
232
62
83
23
538
41
44
46
48
5052
53
61
65
69
727
57
88
08
39
2-
-
90
%-
--
-6
91
11
41
82
023
262
83
33
74
043
45
48
50
51
5363
67
70
74
77
808
39
29
59
91
02
--
80
%-
--
-7
101
41
72
02
327
313
53
94
24
548
50
52
60
65
6973
77
80
83
93
971
00
104
107
110
11
3-
-
70
%-
--
-9
131
72
02
52
833
384
24
54
85
053
63
68
73
77
8090
95
99
103
10
71
10
11
31
2312
613
01
33
--
60
%-
--
-1
116
20
25
28
36
4145
48
51
53
66
717
68
19
19
71
01
10
61
10
113
124
12
81
32
13
51
3914
214
51
47
--
50
%-
--
-1
520
26
32
39
44
4852
62
69
75
81
929
91
0410
911
31
25
13
01
34
138
142
14
51
48
15
11
5415
715
91
61
--
40
%-
--
-2
027
35
42
48
52
6573
80
93
101
10
71
13
12
51
3113
614
11
45
14
91
53
156
159
16
21
65
16
71
8419
119
72
02
--
30
%-
--
-2
839
47
53
69
79
941
03
111
125
133
13
91
45
15
01
5515
916
21
66
18
31
91
198
205
21
22
18
22
33
0030
531
03
14
--
20
%-
--
-4
660
76
95
108
125
13
61
44
152
158
163
18
01
92
20
22
1222
030
03
06
31
33
18
324
328
33
33
37
34
13
4442
042
34
26
--
10
%-
--
-1
02
12
91
46
159
180
201
21
83
04
316
326
334
34
14
20
42
54
3043
543
94
43
44
64
49
452
454
45
74
59
46
14
6346
446
64
80
--
Run
tim
es in
this
ta
ble
are
ap
pro
xim
ate
. Th
ey
are
ba
sed
on n
ew
, fu
lly c
harg
ed
sta
nd
ard
ba
ttery
mo
dule
s a
t a
tem
pe
ratu
re o
f 2
5°C
(7
7°F
) w
ith 1
00%
re
sist
ive
UP
S lo
ad
ing.
While every precaution has been taken to ensure the accuracyand completeness of this literature, Liebert Corporation assumes noresponsibility and disclaims all liability for damages resulting from use ofthis information or for any errors or omissions.© 2013 Liebert CorporationAll rights reserved throughout the world. Specifications subject to changewithout notice.® Liebert is a registered trademark of Liebert Corporation.All names referred to are trademarksor registered trademarks of their respective owners.
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SL-55010_REV3_12-13