liebert aps - dtiemersnrep.com.mxdtiemersnrep.com.mx/pdfs/network-power/ups-de-red/liebert...

Liebert® APS™

User Manual – 5-20kVA Modular UPS

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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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7.2.1 Tables for UPS Model Number Where Digits 1-3 are AS2 or ASB . . . . . . . . . . . . . . . . . . . . . 77


7.3.1 Tables for UPS model number digits 1-3 are AS3 or ASC . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81


7.4.1 Tables for UPS Model Number Where Digits 1-3 are AS4 or ASD . . . . . . . . . . . . . . . . . . . . . 85


7.5.1 Tables for UPS Model Number Where Digits 1-3 are AS5 or ASE . . . . . . . . . . . . . . . . . . . . . 89


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)

http://www.eu.emersonnetworkpower.com

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


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)



Bays for Power, Charger, or Battery Modules




POD Port

Liebert IntelliSlotPorts


Output Breaker



Input Breaker (under cover)

FRONT VIEW (Bezels Removed)

REAR VIEW

USB Port


Liebert® APS™ 6

Figure 3 12-bay transformer-based UPS


Bays for Power, Charger, or Battery Modules




Ports for PODs


REAR VIEW


Ports

Input Breaker

USB Port

External Battery Cabinet Connectors


Fans

Output Breaker


Manual Bypass Breaker


7 Liebert® APS™

Figure 4 16-bay transformer-based UPS



Bays for Power, Charger or Battery Modules

Battery Module Bays

System Control Module(under cover)


Fans


POD Ports

REAR VIEW


Ports

InputBreaker

USB Port


Output Breaker




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


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


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.


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)


Fan(behind display bracket)


Fans





Fans


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


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


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





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







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


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








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








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



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.


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.



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







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







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.




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


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


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

http://multilink.liebert.com

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


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


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


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.


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)



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




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

—




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


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


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

▲▲


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

Liebert APS2014-01-0110:45:20

▲▲

5Redundant


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

Liebert APS2014-01-0110:45:20

▲▲

DisabledEnabledEnabled50Hz230± 5.0Hz

First Screen

Third Screen Fourth Screen

Remote Shutdown DelayBypass Upper LimitBypass Lower LimitGuaranteed ShutdownBypass Alarm ModeSet RS232 Protocol

Settings

Liebert APS2014-01-0110:45:20

▲▲

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

Liebert APS2014-01-0110:45:20

▲▲

Disabled0.0kVADisabled1DisabledStandard

Second Screen

IT System Compatibility UPS IDCompany NameContact NumberLoad Factory Default

Settings

Liebert APS2014-01-0110:45:20

▲▲

No

Disabled

Fifth Screen


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.


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


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.


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

Liebert APS2014-01-0110:45:20

▲▲

LCD BoardBypass Monitor BoardBypass Control BoardPower ModuleBattery ModuleCharger Module

Module Replacement

Liebert APS2014-01-0110:45:20

▲▲

▲

Module Replacement Screen LCD Board Replacement Procedures


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.


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)


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.


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



System Monitor Module Lock Lever in Remove Position



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



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



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.


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.



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

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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

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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™


7.2.1 Tables for UPS Model Number Where Digits 1-3 are AS2 or ASB

Tab

le 3

516

-ba

y, s

ing

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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

%-

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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

%-

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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

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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

%-

--

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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

%-

--

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10

14

172

02

327

31

35

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34

54

85

05

26

16

57

07

47

78

08

39

397

10

11

041

07

110

113

--

70

%-

--

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13

17

202

52

833

38

42

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85

05

36

26

87

27

68

09

09

49

91

03

106

11

01

13

122

12

612

91

33-

-

60

%-

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16

20

252

83

540

44

48

515

36

57

07

58

09

09

51

00

10

41

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12

12

21

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30

13

41

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41

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146

--

50

%-

--

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20

26

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84

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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

%-

--

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26

33

414

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162

70

77

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71

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10

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11

27

13

31

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42

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53

15

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62

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41

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84

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195

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30

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55

159

16

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65

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21

02

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22

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33

07-

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20

%-

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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

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42

44

29

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45

54

57

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46

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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™


7.3.1 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™


7.4.1 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™


7.5.1 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™


7.6.1 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

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Run

tim

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this

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are

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pro

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are

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nd

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mo

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(7

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re

sist

ive

UP

S lo

ad

ing.

Specifications

97 Liebert® APS™

NOTES

Specifications

Liebert® APS™ 98

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.

Technical Support / ServiceWeb Site

www.liebert.comMonitoring

[email protected]

Outside North America: +00800 1155 4499Single-Phase UPS & Server Cabinets

[email protected]

Outside North America: +00800 1155 4499Three-Phase UPS & Power Systems

800-543-2378Outside North America: 614-841-6598

Environmental Systems800-543-2778

Outside the United States: 614-888-0246

LocationsUnited States

1050 Dearborn DriveP.O. Box 29186

Columbus, OH 43229Europe

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35028 Piove Di Sacco (PD) Italy+39 049 9719 111

Fax: +39 049 5841 257Asia

29/F, The Orient Square BuildingF. Ortigas Jr. Road, Ortigas Center

Pasig City 1605Philippines

+63 2 687 6615Fax: +63 2 730 9572

Emerson Network PowerDivision: LiebertWeb: www.emerson.com

www.EmersonNetworkPower.com

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