E3SUPS20KHB2 UPS with Internal Batteries

Product Information

Specifications

• Model: Easy UPS 3S

• Capacity: 10-40 kVA at 400 V, 10-20 kVA at 208 V (3:3), 10-30
  kVA at 400 V (3:1)

• Operation Modes: Online, Eco, Smart-Boost, Smart-Trim

• User Interface: Display Interface with Menu Tree

• Website for Updates: Schneider Electric

Product Usage Instructions

Safety Precautions

Before using the Easy UPS 3S, please read and follow all safety
instructions provided in the manual to ensure safe operation.

User Interface

The Easy UPS 3S features a user-friendly interface that allows
you to monitor and control the UPS system efficiently.

Display Interface

The display interface provides real-time information on UPS
status, input/output voltage, load percentage, and battery
status.

Menu Tree

Refer to the menu tree in the manual to navigate through
different settings and configurations of the UPS system.

Operation Modes

The UPS system offers various operation modes such as Online,
Eco, Smart-Boost, and Smart-Trim for optimal performance based on
your requirements.

Operation Procedures

Follow the operation procedures outlined in the manual to ensure
proper functioning of the UPS system under different scenarios.

Configuration

Configure the UPS system settings as per your specific needs
using the configuration options provided in the manual.

Tests

Regularly perform battery maintenance tests and battery tests as
recommended to ensure the UPS system’s reliability during power
outages.

Battery Maintenance Test

Follow the steps outlined in the manual to perform a battery
maintenance test and ensure the batteries are functioning
correctly.

Frequently Asked Questions (FAQ)

Q: How often should I perform a battery maintenance test?

A: It is recommended to perform a battery maintenance test at
least once every six months to ensure optimal battery
performance.

Easy UPS 3S
10-40 kVA 400 V & 10-20 kVA 208 V 3:3, 10-30 kVA 400 V 3:1 Operation
Latest updates are available on the Schneider Electric website 6/2023
www.schneider-electric.com

Legal Information
The Schneider Electric brand and any trademarks of Schneider Electric SE and its subsidiaries referred to in this guide are the property of Schneider Electric SE or its subsidiaries. All other brands may be trademarks of their respective owners. This guide and its content are protected under applicable copyright laws and furnished for informational use only. No part of this guide may be reproduced or transmitted in any form or by any means (electronic, mechanical, photocopying, recording, or otherwise), for any purpose, without the prior written permission of Schneider Electric. Schneider Electric does not grant any right or license for commercial use of the guide or its content, except for a non-exclusive and personal license to consult it on an “as is” basis. Schneider Electric products and equipment should be installed, operated, serviced, and maintained only by qualified personnel. As standards, specifications, and designs change from time to time, information contained in this guide may be subject to change without notice. To the extent permitted by applicable law, no responsibility or liability is assumed by Schneider Electric and its subsidiaries for any errors or omissions in the informational content of this material or consequences arising out of or resulting from the use of the information contained herein.
Find the manuals here: Trouvez les manuels ici: Hier finden Sie die Handbücher: Encuentre los manuales aquí: Encontre os manuais aqui:
https://www.productinfo.schneider-electric.com/easyups3s/

Table of Contents

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990-91079G-001

Important Safety Instructions — SAVE THESE INSTRUCTIONS ……………………………………………………………………………..5
Electromagnetic Compatibility ……………………………………………………………6 Safety Precautions ………………………………………………………………………….6
Overview …………………………………………………………………………………………7
User Interface ………………………………………………………………………………..7 Display Interface ………………………………………………………………………..9 Menu Tree………………………………………………………………………………..9
Overview of Single UPS …………………………………………………………………. 11 Overview of 1+1 Redundant Parallel System with Common Battery Bank ………………………………………………………………………………………….. 12 Overview of Parallel System …………………………………………………………….13 Location of Breakers – 400 V Systems ………………………………………………..16 Location of Breakers – 208 V Systems ………………………………………………..20
Operation Modes …………………………………………………………………………..22 Operation Procedures ……………………………………………………………………26
Initial Start-Up of the UPS Using the Wizard ­ Only Applicable to Single UPSs with Internal Batteries …………………………………………………………….26
Start-Up Checklist ­ Only Applicable to Single UPSs with Internal Batteries ………………………………………………………………………………..27 Start Up a Single UPS in Normal Mode ………………………………………………27 Transfer a Single UPS from Normal Mode to Static Bypass Mode……………..29 Transfer a Single UPS from Static Bypass Mode to Normal Mode……………..30 Transfer a Single UPS from Normal Mode to Maintenance Bypass Mode ………………………………………………………………………………………….30 Transfer a Single UPS from Maintenance Bypass Mode to Normal Mode ………………………………………………………………………………………….31 Transfer a Parallel System from Normal Mode to Maintenance Bypass Mode ………………………………………………………………………………………….32 Transfer a Parallel System from Maintenance Bypass Mode to Normal Mode ………………………………………………………………………………………….33 Isolate a Single UPS from the Parallel System ……………………………………..34 Start Up and Add a UPS to a Running Parallel System …………………………..35
Configuration …………………………………………………………………………………37
Register Your Easy UPS 3S …………………………………………………………….37 Set the Display Language ……………………………………………………………….37 Set the Date and Time ……………………………………………………………………38 Set the UPS Settings ……………………………………………………………………..38 Set the Battery Settings…………………………………………………………………..39
Recommended Settings for 400 V UPSs with Internal Batteries and Modular Battery Cabinets …………………………………………………………..40 Recommended Settings for 208 V UPSs with Internal Batteries and Modular Battery Cabinets …………………………………………………………..42 Set the Life Cycle Monitoring ……………………………………………………………44 Settings ………………………………………………………………………………………45
Tests……………………………………………………………………………………………… 47
Perform a Battery Maintenance Test ………………………………………………….47
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Perform a Battery Test ……………………………………………………………………47
Maintenance ………………………………………………………………………………….48
Parts Replacement ………………………………………………………………………..48 Determine if you need a Replacement Part …………………………………….48
Replace the Dust Filter……………………………………………………………………48
Troubleshooting …………………………………………………………………………….51
View the Active Alarms……………………………………………………………………51 Buzzer ………………………………………………………………………………………..51 Status and Alarm Messages …………………………………………………………….51
Appendix: Switch/Breaker Details ………………………………………………….56

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Important Safety Instructions — SAVE THESE INSTRUCTIONS

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Important Safety Instructions — SAVE THESE INSTRUCTIONS

Read these instructions carefully and look at the equipment to become familiar with it before trying to install, operate, service or maintain it. The following safety messages may appear throughout this manual or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure.
The addition of this symbol to a “Danger” or “Warning” safety message indicates that an electrical hazard exists which will result in personal injury if the instructions are not followed.
This is the safety alert symbol. It is used to alert you to potential personal injury hazards. Obey all safety messages with this symbol to avoid possible injury or death.

DANGER
DANGER indicates a hazardous situation which, if not avoided, will result in death or serious injury. Failure to follow these instructions will result in death or serious injury.
WARNING
WARNING indicates a hazardous situation which, if not avoided, could result in death or serious injury. Failure to follow these instructions can result in death, serious injury, or equipment damage.
CAUTION
CAUTION indicates a hazardous situation which, if not avoided, could result in minor or moderate injury. Failure to follow these instructions can result in injury or equipment damage.
NOTICE
NOTICE is used to address practices not related to physical injury. The safety alert symbol shall not be used with this type of safety message. Failure to follow these instructions can result in equipment damage.

Please Note

Electrical equipment should only be installed, operated, serviced, and maintained by qualified personnel. No responsibility is assumed by Schneider Electric for any consequences arising out of the use of this material.
A qualified person is one who has skills and knowledge related to the construction, installation, and operation of electrical equipment and has received safety training to recognize and avoid the hazards involved.

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Important Safety Instructions — SAVE THESE INSTRUCTIONS

Per IEC 62040-1: “Uninterruptible power systems (UPS) — Part 1: Safety Requirements,” this equipment, including battery access, must be inspected, installed and maintained by a skilled person.
The skilled person is a person with relevant education and experience to enable him or her to perceive risks and to avoid hazards which the equipment can create (reference IEC 62040, section 3.102).

Electromagnetic Compatibility
NOTICE
RISK OF ELECTROMAGNETIC DISTURBANCE
This is a product Category C3 according to IEC 62040-2. This is a product for commercial and industrial applications in the second environment – installation restrictions or additional measures may be needed to prevent disturbances. The second environment includes all commercial, light industry, and industrial locations other than residential, commercial, and light industrial premises directly connected without intermediate transformer to a public low-voltage mains supply. The installation and cabling must follow the electromagnetic compatibility rules, e.g.:
· the segregation of cables,
· the use of shielded or special cables when relevant,
· the use of grounded metallic cable tray and supports.
Failure to follow these instructions can result in equipment damage.

Safety Precautions
DANGER
HAZARD OF ELECTRICAL SHOCK, EXPLOSION OR ARC FLASH All safety instructions in this document must be read, understood and followed. Failure to follow these instructions will result in death or serious injury.
DANGER
HAZARD OF ELECTRICAL SHOCK, EXPLOSION OR ARC FLASH After the UPS system has been electrically wired, do not start up the system. The start-up requirements depend on the installation country. For countries with bundled start-up service, start-up must be performed by Schneider Electric. Failure to follow these instructions will result in death or serious injury.

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Overview
Overview
User Interface

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Keys EPO

Home

Previous

Next

Confirm

Only use the EPO button in case of emergency.
It can be configured whether, when the EPO is activated, the UPS should: · turn off the rectifier, inverter, charger, and static bypass and stop supplying the load immediately (default), or · transfer to static bypass mode and continue supplying the load.
DANGER
HAZARD OF ELECTRIC SHOCK, EXPLOSION, OR ARC FLASH
The UPS control circuit will remain active after the EPO has been pushed if utility/mains is available.
Failure to follow these instructions will result in death or serious injury.

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Status LEDs

Overview

LED A Rectifier
B Battery
C Bypass D Inverter 8

Status Green : Rectifier is working correctly. Flashing green : Rectifier is starting up. Red : Rectifier is inoperable. Flashing red : Utility/mains is unavailable. OFF : Rectifier is off. Green : Battery is charging. Flashing green : Battery is discharging. Red : Battery is inoperable. Flashing red : Battery low voltage. OFF : Battery and battery charger are OK, battery is not charging or discharging. Green : Load supplied by bypass source. Red : Bypass source is unavailable or static bypass switch is inoperable. Flashing red : Bypass voltage is out of tolerance. OFF : Bypass source is OK. Green : Load supplied by inverter. Flashing green : Inverter on, start, synchronization or standby (ECO mode). Red : Load not supplied by inverter, inverter is inoperable.
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Overview LED
E Load
F Status

Status

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Flashing red : Load supplied by inverter, but an inverter alarm is present. OFF : Inverter is off. Green : UPS output is on. Red : Overload on UPS output for too long, or output has shorted, or no output power present. Flashing red : Overload on UPS output. OFF : UPS output is off. Green : UPS is OK. Red : Inoperable status.

Display Interface
Home Screen

Buttons

Power On/ Input and Output

Battery

UPS status Function Log

Off

bypass

status

status

settings

status

information information

information

Mute

Menu Tree

Tap the main menu button on the home screen to access the menus.

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Overview

Some menus contain more submenus than described in this manual. These submenus are grayed out and are only for use by Schneider Electric to avoid unwanted load impacts. Other menu items can also be grayed out/not shown on the display if they are not relevant or not released yet for this particular UPS system.

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Overview
Overview of Single UPS

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

UIB SSIB UOB MBB BB

Unit input breaker/switch Static switch input breaker/switch Unit output breaker/switch Maintenance bypass breaker/switch Battery breaker/switch

NOTE: Refer to Appendix: Switch/Breaker Details, page 56 for the disconnecting device type.

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Overview

Overview of 1+1 Redundant Parallel System with Common Battery Bank

MIB BIB UIB SSIB UOB Ext. UOB MBB Ext. MBB BB1 BB2

Mains input breaker/switch Bypass input breaker/switch Unit input breaker/switch Static switch input breaker/switch Unit output breaker/switch External unit output breaker/switch Maintenance bypass breaker/switch External maintenance bypass breaker/switch Battery breaker/switch 1 Battery breaker/switch 2

NOTE: Refer to Appendix: Switch/Breaker Details, page 56 for the disconnecting device type. NOTE: For UPS with internal batteries, the batteries must be removed and the internal battery breaker (BB) must be padlocked in the open (OFF) position.

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Overview

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Overview of Parallel System

MIB BIB UIB SSIB UOB Ext. UOB MBB Ext. MBB SIB BB

Mains input breaker/switch Bypass input breaker/switch Unit input breaker/switch Static switch input breaker/switch Unit output breaker/switch External unit output breaker/switch Maintenance bypass breaker/switch External maintenance bypass breaker/switch System isolation breaker/switch Battery breaker/switch

NOTE: Refer to Appendix: Switch/Breaker Details, page 56 for the disconnecting device type.
NOTE: In parallel systems with an external maintenance bypass breaker Ext. MBB, the maintenance bypass breakers/switches MBB must be padlocked in the open (OFF) position.

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10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1 UPSs for External Batteries

Overview

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Overview UPSs for Internal Batteries

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

The impedance of the bypass paths need to be controlled in a parallel UPS system. When operating in bypass mode, the parallel load sharing is determined by the total impedance of the bypass path comprising cables, switchgear, static bypass switch, and cable formation.

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Overview

NOTICE
RISK OF EQUIPMENT DAMAGE
To ensure correct load sharing in bypass operation in a parallel system, the following recommendations apply:
· The bypass cables must be the same length for all UPSs.
· The output cables must be the same length for all UPSs.
· The input cables must be the same length for all UPSs in a single mains system.
· Cable formation recommendations must be followed.
· The reactance of busbar layout in the bypass/input and output switchgear must be the same for all UPSs.
If the above recommendations are not followed the result can be uneven load sharing in bypass and overload of individual UPSs.
Failure to follow these instructions can result in equipment damage.

Location of Breakers – 400 V Systems
Location of Breakers in 3:3 UPSs

Rear View of the 10­15 kVA UPS for External Batteries

Rear View of the 10­15 kVA UPS with Internal Batteries

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Overview

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Rear View of the 20 kVA UPS for External Batteries Rear View of the 20 kVA UPS with Internal Batteries

Rear View of the 30 kVA UPS for External Batteries Rear View of the 30 kVA UPS with Internal Batteries

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Overview

Rear View of the 40 kVA UPS for External Batteries Rear View of the 40 kVA UPS with Internal Batteries

Location of Breakers in 3:1 UPSs

Rear View of the 10­15 kVA UPS for External Batteries

Rear View of the 10­15 kVA UPS with Internal Batteries

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Overview

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Rear View of the 20 kVA UPS for External Batteries Rear View of the 20 kVA UPS with Internal Batteries

Rear View of the 30 kVA UPS for External Batteries Rear View of the 30 kVA UPS with Internal Batteries

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Location of Breakers – 208 V Systems
Location of Breakers in 3:3 UPSs

Overview

Rear View of the 10 kVA UPS for External Batteries Rear View of the 10 kVA UPS with Internal Batteries

Rear View of the 15 kVA UPS for External Batteries Rear View of the 15 kVA UPS with Internal Batteries

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Overview

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Rear View of the 20 kVA UPS for External Batteries Rear View of the 20 kVA UPS with Internal Batteries

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Operation Modes

Operation Modes

Normal Mode

The UPS provides power to the connected load from mains. The UPS converts mains to conditioned power for the connected load while recharging the batteries (float or boost charge).

LED Status

Power Flow

Battery Mode
LED Status

The UPS transfers to battery mode if the mains supply fails. The UPS provides power to the connected load from the connected batteries for a finite period. When the mains supply returns, the UPS transfers back to normal mode.

Static Bypass Mode
The UPS supplies the load with power from the bypass source. If the conditions for normal or battery mode are not met, the load will be transferred from the inverter to the bypass source with no interruption in power to the load.

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Operation Modes LED Status

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1 Power Flow

Maintenance Bypass Mode
In maintenance bypass mode, the mains is sent via the external MBB to the load. Battery backup is not available in maintenance bypass mode.

LED Status

Power Flow

ECO Mode

In ECO mode the UPS is configured to use static bypass mode as the preferred operation mode under predefined circumstances. The inverter is in standby in ECO mode and in case of interruption to the mains, the UPS transfers to battery mode and the load is supplied from the inverter.
NOTE: This mode is disabled by default, please contact Schneider Electric to enable this mode. If ECO mode is enabled, you cannot exit this operation mode by using the display, please also contact Schneider Electric for assistance.

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LED Status

Power Flow

Operation Modes

Autostart Mode

The batteries will reach end of discharge if the interruption to the mains is longer than the battery runtime. If the UPS is programmed to auto-restart after end of discharge, the system will automatically restart after a delay when the mains returns.
NOTE: If autostart is disabled, the inverter and bypass will not restart automatically when the mains return.

Frequency Converter Mode
In frequency converter mode, the UPS presents a stable output frequency (at 50 or 60 Hz) and the static bypass switch is not available.
NOTICE
RISK OF EQUIPMENT DAMAGE OR LOAD DROP
In frequency converter mode the UPS cannot run in static bypass or maintenance bypass mode. Before turning the UPS into frequency converter mode, you must contact a Schneider Electric-certified partner to make sure · the SSIB and the MBB are in the OFF (opened) position (Schneider Electric
strongly recommends to lock these with a padlock available from Schneider Electric) · no cables are connected to the bypass terminals Failure to follow these instructions can result in equipment damage.

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Operation Modes LED Status

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1 Power Flow

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Operation Procedures

Operation Procedures

Initial Start-Up of the UPS Using the Wizard ­ Only Applicable to Single UPSs with Internal Batteries

DANGER
HAZARD OF ELECTRIC SHOCK, EXPLOSION, OR ARC FLASH Parallel systems and UPSs for external batteries must only be started up by Schneider Electric. Failure to follow these instructions will result in death or serious injury.
Before starting up the UPS, confirm that: · The room temperature is between 0 °C to 40 °C · The UPS has been installed according to the specified clearance dimensions. 1. Turn the unit input breaker UIB to the ON (closed) position. The display turns on. 2. Select to register the UPS or select Skip to continue. See Register Your Easy UPS 3S, page 37 for more information. 3. When the Change language prompt appears, do one of the following: ­ Select Yes and select the preferred language using the navigation keys. Select Yes again to confirm. ­ Select No to keep the current selection. 4. When the Change voltage prompt appears, do one of the following: ­ Select Yes and select the preferred voltage using the navigation keys. Select Yes again to confirm. ­ Select No to keep the current selection. 5. When the Change freq. prompt appears, do one of the following: ­ Select Yes and select the preferred output frequency using the navigation keys. Select Yes again to confirm. ­ Select No to keep the current selection. 6. When the Change mode prompt appears, do one of the following: ­ Select Yes and select Normal mode, Parallel mode, or Frequency converter mode using the navigation keys. Select Yes again to confirm. ­ Select No to keep the current selection. 7. When the Change Batt setting prompt appears, perform the following steps: a. Enter password: Enter the password 2334. b. Batt number: Verify the number of battery blocks is 20. c. Batt cap (AH): Set the battery capacity to according to your battery configuration. d. Batt charge %: Set the battery charge percentage (between 1% and 15%). e. Select Yes to save the battery settings. 8. When the Save new settings prompt appears, select Yes.

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Operation Procedures

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1
9. When the Disable wizard prompt appears, do one of the following: ­ Select Yes to disable the wizard and go to the default screen. NOTE: Schneider Electric recommends to disable the wizard to allow for automatic start. ­ Select No to go to the default screen without disabling the wizard.
Post-requisite: For systems with internal batteries, go to Set the Battery Settings, page 39.

Start-Up Checklist ­ Only Applicable to Single UPSs with Internal Batteries
DANGER
HAZARD OF ELECTRIC SHOCK, EXPLOSION, OR ARC FLASH
Parallel systems and UPSs for external batteries must only be started up by Schneider Electric.
Failure to follow these instructions will result in death or serious injury.
· I have positioned the UPS according to the installation manual and the recommended clearances are respected.
· I have verified that the environmental conditions including temperature, humidity, and airflow stated in the installation manual are respected.
· I have verified that the input voltage and frequency are within the tolerances specified in the installation manual.
· I have verified that the upstream protection is in accordance with the recommendations in the installation manual and that the power cables have been connected correctly.
· I have installed the batteries as specified in the installation manual.
· I have followed the Initial Start-Up of the UPS Using the Wizard ­ Only Applicable to Single UPSs with Internal Batteries, page 26.
· I have made all settings (including battery settings and life cycle monitoring) described in this manual.
· I have completed all functional tests successfully (normal mode, battery mode, and static bypass mode).
· I have successfully entered the UPS passcode provided by Schneider Electric.
· I confirm the installation has been completed and the UPS is running in normal mode and is powering the load.

Start Up a Single UPS in Normal Mode
NOTE: When the UPS starts, the stored settings will be used. NOTE: The log can be accessed during start-up. 1. Check that all breakers are in the OFF (open) position. 2. Turn the static switch input breaker SSIB to the ON (closed) position. The display turns on and the Home screen is shown.

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Operation Procedures

3. Turn the unit output breaker UOB to the ON (closed) position.
Wait approximately 2030 seconds until the bypass and output LEDs turn green. The UPS starts up in static bypass mode.

4. Turn the unit input breaker UIB to the ON (closed) position. The rectifier ramps up and the LEDs on the user interface show as follows:

5. When the rectifier LED turns steady green, the inverter synchronizes with bypass.
The LEDs on the user interface show as follows:

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6. Wait approximately one minute until the inverter LED turns steady green, the UPS transfers automatically from static bypass mode to normal mode. The LEDs on the user interface show as follows:

7. Turn the battery breaker(s) BB to the ON (closed) position. The LEDs on the user interface show as follows:

The UPS is now in normal mode.
Transfer a Single UPS from Normal Mode to Static Bypass Mode

1. On the display, select

and then select Function > To bypass.

The LEDs on the user interface show as follows:

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Operation Procedures

Transfer a Single UPS from Static Bypass Mode to Normal Mode

NOTE: The UPS will normally transfer automatically from static bypass to normal mode. This procedure can be used to manually transfer to normal mode if the bypass frequency is above the specified limits.

1. On the display, select

and then select ESC bypass.

The LEDs on the user interface show as follows:

Transfer a Single UPS from Normal Mode to Maintenance Bypass Mode

1. On the display, select

and then select Function > To bypass.

2. Remove the cover from the maintenance bypass breaker MBB. Refer to Location of Breakers – 400 V Systems, page 16.
NOTE: When the cover of the MBB is removed, the system automatically transfers to maintenance bypass mode.

3. Turn the maintenance bypass breaker MBB to the ON (closed) position. The load is now supplied via the maintenance bypass breaker.

4. Turn the battery breaker(s) BB to the OFF (open) position.

5. Turn the unit input breaker UIB to the OFF (open) position.

6. Turn the static switch input breaker SSIB to the OFF (open) position.

7. Turn the unit output breaker UOB to the OFF (open) position.

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8. For the UPS with internal batteries, disconnect all batteries on the front of the UPS.

DANGER
HAZARD OF ELECTRICAL SHOCK, EXPLOSION OR ARC FLASH · Wait at least 5 minutes before removing the cover of the UPS after the
display has turned off to allow for the capacitors to fully discharged. · Always measure for hazardous voltages on all terminals before working
on the UPS. Failure to follow these instructions will result in death or serious injury.
9. Do not reinstall the maintenance bypass breaker MBB cover. Leave the cover removed when the UPS is in Maintenance Bypass Mode.
Transfer a Single UPS from Maintenance Bypass Mode to Normal Mode
1. Check that: · all UPS breakers (unit input breaker UIB, static switch input breaker SSIB, and unit output breaker UOB and the external unit output breaker Ext. UOB are in the OFF (open) position. · the battery breakers BB are in the OFF (open) position. · the maintenance bypass breaker MBB is in the ON (closed) position. · the maintenance bypass breaker MBB cover is removed.
2. Turn the static switch input breaker SSIB to the ON (closed) position. The display turns on and the Home screen is shown.
3. Turn the unit output breaker UOB to the ON (closed) position. The UPS starts up in static bypass mode.
4. Turn the unit input breaker UIB to the ON (closed) position. The rectifier ramps up.
5. When the rectifier LED turns steady green, the inverter synchronizes with bypass.
6. Turn the battery breaker(s) BB to the ON (closed) position.
7. When the Bypass LED is steady green, turn the maintenance bypass breaker MBB to the OFF (open) position.

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Operation Procedures

8. Reinstall the cover on the maintenance bypass breaker MBB. Refer to Location of Breakers – 400 V Systems, page 16.
NOTE: The system will not transfer to normal mode before the maintenance bypass cover has been reinstalled.

9. On the display select and then select Function > Clear alarm. NOTE: The system will not transfer to normal mode before the maintenance bypass cover has been reinstalled and the alarm has been cleared.
10. After approximately 60 seconds, the UPS will automatically transfer to normal mode.
The LEDs on the user interface show as follows:

Transfer a Parallel System from Normal Mode to Maintenance Bypass Mode

1. On all UPS displays, select

and then select Function > To bypass.

The parallel system will transfer to static bypass mode.

2. Turn the external maintenance bypass breaker Ext. MBB to the ON (closed) position.
The load is now supplied via the external maintenance bypass breaker.

3. Turn the battery breakers BB of all UPSs to the OFF (open) position.

4. Disconnect the battery relay from the display by selecting the battery symbol and selecting Batt relay control ON/OFF and confirm to turn off the battery relay. Verify that the Relay status is now off.

5. Open external battery breaker if external batteries are connected.

6. Turn the mains input breakers MIB and the bypass input breakers BIB of all UPSs to the OFF (open) position.

7. Turn the system isolation breaker SIB to OFF (open) position.

32

990-91079G-001

Operation Procedures

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1
8. For the UPS with internal batteries, disconnect all batteries on the front of the UPS.

DANGER
HAZARD OF ELECTRICAL SHOCK, EXPLOSION OR ARC FLASH
· Wait at least 5 minutes before removing the cover of the UPS after the display has turned off to allow for the capacitors to fully discharged.
· Always measure for hazardous voltages on all terminals before working on the UPS.
Failure to follow these instructions will result in death or serious injury.

Transfer a Parallel System from Maintenance Bypass Mode to Normal Mode

1. Check that: · all UPS breakers (unit input breaker UIB, static switch input breaker SSIB, and unit output breaker UOB) and the external unit output breaker Ext. UOB are in the ON (closed) position · the battery breakers BB are in the OFF (open) position
2. Reconnect the internal batteries of all UPSs and set all the battery breakers BB in the modular battery cabinets (if present) to the ON (closed) position.
3. Turn the system isolation breaker SIB to ON (closed) position.
4. Turn the bypass input breakers BIB of all UPSs to the ON (closed) position. Wait approximately 2030 seconds until the bypass and the output LEDs turn green.
5. Turn the external maintenance bypass breaker Ext. MBB to the OFF (open) position. NOTE: If the parallel system has dry contacts with Maint CB signal, select
and then select Function > Clear alarm on all UPS displays.
6. Turn the mains input breakers MIB of all UPSs to the ON (closed) position. The rectifier ramps up. After UPS self-test, the battery relay closes automatically.
7. Close the external battery breaker if external batteries are part of the system.
8. When the rectifier LED turns steady green, the inverter synchronizes with bypass.
9. When the inverter LED turns steady green, the parallel system automatically transfers from static bypass to normal mode.

990-91079G-001

33

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Operation Procedures

10. Turn the battery breakers BB of all UPSs to the ON (closed) position. The LEDs on the user interfaces show as follows:

The parallel system is now in normal mode.

Isolate a Single UPS from the Parallel System
Use this procedure to shut down one UPS in a running parallel system. NOTE: Before initiating this procedure, ensure that the remaining UPS units can supply the load.

1. On the display select

and then select confirm to power off the UPS.

2. Turn the battery breaker(s) BB of the UPS to the OFF (open) position.

3. Disconnect the battery relay from the display by selecting the battery symbol and selecting Batt relay control ON/OFF and confirm to turn off the battery relay. Verify that the Relay status is now off.

4. Open external battery breaker if external batteries are connected.

5. Turn the mains input breaker MIB of the UPS to the OFF (open) position.

6. Turn the bypass input breaker BIB of the UPS to the OFF (open) position.

7. Turn the external unit output breaker Ext. UOB of the UPS to the OFF (open) position.

34

990-91079G-001

Operation Procedures

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1
8. For the UPS with internal batteries, disconnect all batteries on the front of the UPS.

DANGER
HAZARD OF ELECTRICAL SHOCK, EXPLOSION OR ARC FLASH · Wait at least 5 minutes before removing the cover of the UPS after the
display has turned off to allow for the capacitors to fully discharged. · Always measure for hazardous voltages on all terminals before working
on the UPS. Failure to follow these instructions will result in death or serious injury.
Start Up and Add a UPS to a Running Parallel System
Use this procedure to start up a UPS and add it to a running parallel system. IMPORTANT: Before a UPS can be added to a parallel system, the parallel system must be configured by Schneider Electric.
1. On the new UPS check that: · all UPS breakers (unit input breaker UIB, static switch input breaker SSIB, and unit output breaker UOB) and the external unit output breaker Ext. UOB are in the ON (closed) position · the battery breaker(s) BB are in the OFF (open) position
2. Turn the external unit output breaker Ext. UOB of the UPS to the ON (closed) position.
3. Turn the mains input breaker MIB and the bypass input breaker BIB of the UPS to the ON (closed) position. The display turns on and the Home screen is shown.
The LEDs on the user interface show as follows:

990-91079G-001

35

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Operation Procedures

4. When the rectifier LED turns steady green, the UPS transfers to static bypass mode.
The LEDs on the user interface show as follows:

5. When the inverter LED turns steady green, the UPS automatically transfers from static bypass to normal mode and joins the running parallel system.
The LEDs on the user interface show as follows:

6. Turn the battery breaker(s) BB of the UPS to the ON (closed) position. The LEDs on the user interface show as follows:

7. Verify correct load sharing between the parallel UPS units.

36

990-91079G-001

Configuration
Configuration

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Register Your Easy UPS 3S
NOTE: The single Easy UPS 3S can also be registered using the mySchneider app which can be downloaded from App Store and Google Play. 1. When prompted for registration, go to www.schneider-electric.com/ contactsupport to find your local service contact number.

2. On the display, select

and then select Register1.

3. Call Schneider Electric and provide your four-digit activation code.

4. Type in the registration code provided by Schneider Electric.

Set the Display Language

1. On the display, select

and then select Language.

2. Select your language from the list:

en: English fr: French cn: Simplified Chinese it: Italian

pt: Portuguese Brazilian ru: Russian de: German es: European Spanish

1. You can also select Register Later to postpone your registration

990-91079G-001

37

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1
Set the Date and Time

Configuration

1. On the display, select 2. Set the date and time.

and then select Time.

Set the UPS Settings
NOTICE
RISK OF EQUIPMENT DAMAGE Only trained personnel following the required training course may undertake modifications to UPS system parameters. Failure to follow these instructions can result in equipment damage.

1. On the display, select

and then select Setting.

2. Enter the password 3526.

3. Set the nominal input voltage (phase-neutral), the nominal output voltage (phase-neutral), and the nominal frequency.
NOTE: Nom input PN and Nom output PN must have the same voltage rating.

4. Restart the UPS to activate the settings.

38

990-91079G-001

Configuration
Set the Battery Settings

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

NOTICE
RISK OF EQUIPMENT DAMAGE
· Only trained personnel following the required training course may undertake modifications to UPS system parameters.
· The battery parameters must set according to the actual installation before starting up the UPS.
Failure to follow these instructions can result in equipment damage.

1. On the display, select

and then select Batt Settings.

2. Enter the password 2334.

3. Set the battery settings: NOTE: When the Nom input PN is equal to 115 V, 120 V, or 127 V, the Batt number must be 20. When the Nom input PN is equal to 220 V, 230 V, or 240 V, the Batt number must be 32­40 depending on the battery configuration.
a. Batt number: Set the number of battery blocks in one battery string. b. Batt cap (AH): Set the battery capacity (battery block capacity (AH) x
number of battery strings).2 c. Batt charge %: Set the battery charge percentage (between 1% and
20%).

2. In a 1+1 redundant parallel system with a common battery bank, insert half of the battery capacity in each UPS.

990-91079G-001

39

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Configuration

Recommended Settings for 400 V UPSs with Internal Batteries and Modular Battery Cabinets

10 kVA UPS

Number of battery strings3
1 2 3 4 5 6 7 8 9

Settings with 7 Ah Batteries (E3SBT4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

40

7

4

80

14

8

120

21

12

160

28

16

200

35

20

240

42

20

280

49

20

320

56

20

360

63

20

15 kVA UPS

Number of battery strings3
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

Settings with 7 Ah Batteries (E3SBT4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

40

7

3

80

14

5

120

21

8

160

28

11

200

35

13

240

42

16

280

49

19

320

56

20

360

63

20

400

70

20

440

77

20

480

84

20

520

91

20

560

98

20

600

105

20

20 kVA UPS

Number of battery strings3
1 2 3 4 5 6 7

Settings with 7 Ah Batteries (E3SBT4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

40

7

2

80

14

4

120

21

6

160

28

8

200

35

10

240

42

12

280

49

14

Settings with 9 Ah Batteries (E3SBTH4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

40

9

5

80

18

10

120

27

15

160

36

20

200

45

20

240

54

20

280

63

20

320

72

20

360

81

20

Settings with 9 Ah Batteries (E3SBTH4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

40

9

4

80

18

7

120

27

10

160

36

14

200

45

17

240

54

20

280

63

20

320

72

20

360

81

20

400

90

20

440

99

20

480

108

20

520

117

20

560

126

20

600

135

20

Settings with 9 Ah Batteries (E3SBTH4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

40

9

3

80

18

5

120

27

8

160

36

10

200

45

13

240

54

15

280

63

18

3. Total number of battery strings in UPS and modular battery cabinet. 40

990-91079G-001

Configuration

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

20 kVA UPS (Continued)

Number of battery strings4
8 9 10 11 12 13 14 15

Settings with 7 Ah Batteries (E3SBT4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

320

56

16

360

63

18

400

70

20

440

77

20

480

84

20

520

91

20

560

98

20

600

105

20

30 kVA UPS

Number of battery strings4
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28

Settings with 7 Ah Batteries (E3SBT4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

40

7

2

80

14

3

120

21

4

160

28

6

200

35

7

240

42

8

280

49

10

320

56

11

360

63

12

400

70

13

440

77

15

480

84

16

520

91

17

560

98

19

600

105

20

640

112

20

680

119

20

720

126

20

760

133

20

800

140

20

840

147

20

880

154

20

920

161

20

960

168

20

1000

175

20

1040

182

20

1080

189

20

1120

196

20

Settings with 9 Ah Batteries (E3SBTH4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

320

72

20

360

81

20

400

90

20

440

99

20

480

108

20

520

117

20

560

126

20

600

135

20

Settings with 9 Ah Batteries (E3SBTH4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

40

9

2

80

18

4

120

27

5

160

36

7

200

45

9

240

54

10

280

63

12

320

72

14

360

81

16

400

90

17

440

99

19

480

108

20

520

117

20

560

126

20

600

135

20

640

144

20

680

153

20

720

162

20

760

171

20

800

180

20

840

189

20

880

198

20

920

207

20

960

216

20

1000

225

20

1040

234

20

1080

243

20

1120

252

20

4. Total number of battery strings in UPS and modular battery cabinet.

990-91079G-001

41

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Configuration

40 kVA UPS

Number of battery strings5
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28

Settings with 7 Ah Batteries (E3SBT4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

40

7

1

80

14

2

120

21

3

160

28

4

200

35

5

240

42

6

280

49

7

320

56

8

360

63

9

400

70

10

440

77

11

480

84

12

520

91

13

560

98

14

600

105

15

640

112

16

680

119

17

720

126

18

760

133

19

800

140

20

840

147

20

880

154

20

920

161

20

960

168

20

1000

175

20

1040

182

20

1080

189

20

1120

196

20

Settings with 9 Ah Batteries (E3SBTH4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

40

9

2

80

18

3

120

27

4

160

36

5

200

45

7

240

54

8

280

63

9

320

72

11

360

81

12

400

90

13

440

99

14

480

108

16

520

117

17

560

126

18

600

135

19

640

144

20

680

153

20

720

162

20

760

171

20

800

180

20

840

189

20

880

198

20

920

207

20

960

216

20

1000

225

20

1040

234

20

1080

243

20

1120

252

20

Recommended Settings for 208 V UPSs with Internal Batteries and Modular Battery Cabinets

10 kVA UPS

Number of battery strings5
1 2 3 4 5

Settings with 7 Ah Batteries (E3SBT4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

20

7

2

40

14

4

600

21

6

80

28

8

100

35

10

Settings with 9 Ah Batteries (E3SBTH4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

20

9

3

40

18

5

600

27

8

80

36

10

100

45

13

5. Total number of battery strings in UPS and modular battery cabinet. 42

990-91079G-001

Configuration

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

10 kVA UPS (Continued)

Number of battery strings6
6 7 8 9 10 11 12 13 14 15

Settings with 7 Ah Batteries (E3SBT4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

120

42

12

140

49

14

160

56

16

180

63

18

200

70

20

220

77

20

240

84

20

260

91

20

280

98

20

300

105

20

15 kVA UPS

Number of battery strings6
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28

Settings with 7 Ah Batteries (E3SBT4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

20

7

2

40

14

3

600

21

4

80

28

6

100

35

7

120

42

8

140

49

10

160

56

11

180

63

12

200

70

13

220

77

15

240

84

16

260

91

17

280

98

19

300

105

20

320

112

20

340

119

20

360

126

20

380

133

20

400

140

20

420

147

20

440

154

20

460

161

20

480

168

20

500

175

20

520

182

20

540

189

20

560

196

20

Settings with 9 Ah Batteries (E3SBTH4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

120

54

15

140

63

18

160

72

20

180

81

20

200

90

20

220

99

20

240

108

20

260

117

20

280

126

20

300

135

20

Settings with 9 Ah Batteries (E3SBTH4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

20

9

2

40

18

4

600

27

5

80

36

7

100

45

9

120

54

10

140

63

12

160

72

14

180

81

16

200

90

17

220

99

19

240

108

20

260

117

20

280

126

20

300

135

20

320

144

20

340

153

20

360

162

20

380

171

20

400

180

20

420

189

20

440

198

20

460

207

20

480

216

20

500

225

20

520

234

20

540

243

20

560

252

20

6. Total number of battery strings in UPS and modular battery cabinet.

990-91079G-001

43

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Configuration

20 kVA UPS

Number of battery strings7
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28

Settings with 7 Ah Batteries (E3SBT4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

20

7

1

40

14

2

600

21

3

80

28

4

100

35

5

120

42

6

140

49

7

160

56

8

180

63

9

200

70

10

220

77

11

240

84

12

260

91

13

280

98

14

300

105

15

320

112

16

340

119

17

360

126

18

380

133

19

400

140

20

420

147

20

440

154

20

460

161

20

480

168

20

500

175

20

520

182

20

540

189

20

560

196

20

Settings with 9 Ah Batteries (E3SBTH4) @ 0.1C

Batt number

Batt cap (AH)

Batt charge %

20

9

2

40

18

3

600

27

4

80

36

5

100

45

7

120

54

8

140

63

9

160

72

11

180

81

12

200

90

13

220

99

14

240

108

16

260

117

17

280

126

18

300

135

19

320

144

20

340

153

20

360

162

20

380

171

20

400

180

20

420

189

20

440

198

20

460

207

20

480

216

20

500

225

20

520

234

20

540

243

20

560

252

20

Set the Life Cycle Monitoring
NOTICE
RISK OF EQUIPMENT DAMAGE Only trained personnel following the required training course may undertake modifications to UPS system parameters. Failure to follow these instructions can result in equipment damage.

1. On the display, select

and then select LCM Set.

7. Total number of battery strings in UPS and modular battery cabinet. 44

990-91079G-001

Configuration

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1 2. You now have the following options:

­ Select Set dust filter expiration to set the service life of the dust filter.

Settings
Setting LCD contrast Date and Time Language

Default Value 60 05/07/2013 08:55:55 English

Input voltage Bypass voltage

400 V
400 V for 3:3 UPSs 230 V for 3:1 UPSs

Input frequency Output voltage

50 Hz
400 V for 3:3 UPSs 230 V for 3:1 UPSs

Output frequency Output phase
Auto boost Auto maint System mode United number System ID Adjusted output voltage
Frequency slew rate Frequency synchronization window Monochrome LCD time (min) Bypass voltage upper limit (%) Bypass voltage lower limit (%) Bypass frequency limited (Hz) System restart mode after end of discharge Fan maintenance period DC capacitor maintenance period warranty period

50 Hz 3 for 3:3 UPSs 1 for 3:1 UPSs disable disable single 1 0 400 V for 3:3 UPSs 230 V for 3:1 UPSs 2 Hz/s 3 Hz 10 15 -20 ±5 Normal 34560 hours (48 months) 34560 hours (48 months) 9 months

990-91079G-001

Available Settings 0 to 100 Year > 2000 Chinese simplified, English, Italian, German, Russian, Spanish, Portuguese Brazilian, and French 200 V/208 V/220 V or 380 V/400 V/415 V 200 V/208 V/220 V or 380 V/400 V/415 V for 3:3 UPSs 220 V/230 V/240 V for 3:1 UPSs 60 Hz 200 V/208 V/220 V or 380 V/400 V/415 V for 3:3 UPSs 220 V/230 V/240 V for 3:1 UPSs 60 Hz 3/1
enable enable parallel/ECO/parallel ECO/self aging 1 to 4 0 to 3 Output voltage ±10 V
0.1 to 5.0 Hz/s 0.5 to 5.0 Hz 1/3/5/10/20/30 10/20/25 -10/-15/-30/-40 ±1/±3/±5 bypass only/ no output 0 to 60000 hours 0 to 60000 hours 1 to 36 months
45

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Setting AC capacitor maintenance period APS maintenance period Dust filter maintenance period Battery maintenance period Battery number
Battery AH Float charge voltage/cell (V) Boost charge voltage/cell (V) End of discharge voltage/cell, at 3 C current (V) End of discharge voltage/cell, at 0.05 C current (V) Charge current percent limit (%) Battery temperature compensation Boost charge time limit Auto boost period

Default Value 120 months 84 months 3 months 4 years 32 for UPSs for external batteries 40 for UPSs with internal batteries 1 2.25 2.25 1.6
1.75
10 0 12 hours 2160 hours (3 months)

Auto maintenance discharge period

6480 hours (9 months)

Critical battery temperature Critical ambient temperature

45 40

Configuration
Available Settings 60 to 120 months 36 to 120 months 0/3/4/5/12 months 2 to 10 years 20/32/34/36/38/40
1 to 30000 2.10 to 2.35 2.20 to 2.45 1.50 to 1.85
1.55 to 1.90
1 to 20 0 to 5 mV/ 1 to 48 hours 720 to 30000 hours, available when auto boost is enabled 720 to 30000 hours, available when auto maintenance is enabled 25 to 70 25 to 70

46

990-91079G-001

Tests
Tests

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Perform a Battery Maintenance Test

NOTICE
RISK OF EQUIPMENT DAMAGE Do not perform a battery maintenance test without load connected. Failure to follow these instructions can result in equipment damage.
Prerequisite: · The bypass supply must be within specifications. · The battery capacity must be above 25%.
The battery maintenance test is used to test the condition of the batteries. During the battery maintenance test, the system transfers to battery mode and discharges the batteries until the battery low voltage alarm is reached.

1. On the display, select

and then select Maint test.

NOTE: If you wish to manually stop the battery test, select Stop test.

If the battery maintenance test is passed, Battery maintenance OK will be recorded in the log. If the battery maintenance test is not passed, Batt maint incomplete will be recorded in the log.

Perform a Battery Test

The purpose of the battery test to verify the connection of the batteries and to check the battery capacity.
Prerequisite: · The bypass supply must be within specifications. · The battery capacity must be above 25%. · The battery voltage must be above 95% of the float voltage.
During the battery test, the system transfers to battery mode for approximately 30 seconds and then returns to normal mode.

1. On the display, select

and then select Battery test.

990-91079G-001

47

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1
Maintenance

Maintenance

Parts Replacement
Determine if you need a Replacement Part
To determine if you need a replacement part, contact Schneider Electric and follow the procedure below so that the representative can assist you promptly:
1. In the event of an alarm condition, scroll through the alarm lists, record the information, and provide it to the representative.
2. Write down the serial number of the unit so that you will have it easily accessible when you contact Schneider Electric.
3. If possible, call Schneider Electric from a telephone that is within reach of the display so that you can gather and report additional information to the representative.
4. Be prepared to provide a detailed description of the problem. A representative will help you solve the problem over the telephone, if possible, or will assign a return material authorization (RMA) number to you. If a module is returned to Schneider Electric, this RMA number must be clearly printed on the outside of the package.
5. If the unit is within the warranty period and has been started up by Schneider Electric, repairs or replacements will be performed free of charge. If it is not within the warranty period, there will be a charge.
6. If the unit is covered by a Schneider Electric service contract, have the contract available to provide information to the representative.

Replace the Dust Filter
1. Lift the front panel free of the UPS cabinet. NOTE: Be careful not to disconnect the cable on the rear side of the front panel.

48

990-91079G-001

Maintenance

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1 2. Loosen the screws and remove the metal brackets.

UPS for External Batteries

UPS with Internal Batteries

3. Replace the dust filter.

UPS for External Batteries

UPS with Internal Batteries

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49

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Maintenance

4. Reinstall the metal brackets and fasten with the screws.
5. Reinstall the front panel.
6. Reset the dust filter time in the display. See Set the Life Cycle Monitoring, page 44 for more information.

50

990-91079G-001

Troubleshooting
Troubleshooting
View the Active Alarms

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

1. On the display select .
See Status and Alarm Messages, page 51 for a list of alarm messages and corrective actions.

2. Use

and

to go through the list of active alarms.

Buzzer

NOTE: The buzzer turns on as soon as an alarm condition is detected. The buzzer makes two short beeps and a long beep for general system alarms. The buzzer makes a continuous beep for critical alarms. It can be turned off by

selecting

on the home screen.

Status and Alarm Messages

This section lists status and alarm messages from the display. The display messages are listed in alphabetical order, and a suggested corrective action is listed with the display alarm message to help you troubleshoot problems.

Display text Battery boost charging Battery connected Battery discharging
Battery disconnected Battery expired Battery end of discharge Battery float charging Battery log reset Batt maint incomplete Battery maintenance Battery maintenance OK Battery temperature high

Description
The batteries are charged with the configured boost charge voltage.
The batteries are connected.
The load is drawing more power than the UPS can draw from the input, causing the UPS to draw power from the batteries.
The batteries are not connected.
The battery service life has expired.
The battery capacity is below the minimum acceptable value.
The batteries are charged with the configured float charge voltage.
Reset the battery log.
The battery maintenance test was not passed.
Start the battery maintenance test.
The battery maintenance test has been successfully completed.
The battery temperature is too high.

Corrective action
Reduce the load. Please contact Schneider Electric. Connect the batteries. Replace the battery. Recharge the batteries.
Check the battery temperature.

990-91079G-001

51

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Troubleshooting

Display text Battery test Battery test incomplete Battery test OK Battery voltage low Battery wiring incorrect Battery/charger inoperable
Byp freq exceeds limits
Bypass fan inoperable Bypass fan time reset Bypass out of tolerance
Bypass overload Bypass overload timeout Bypass sequence incorrect
Bypass unavailable
Capacitor expired Capacitor time reset Clear log DC bus overvoltage Dust filter expired EPO Fan expired Fan inoperable Fan time reset Firmware incompatible
Generator input

Description

Corrective action

Start the battery test.

The battery test was not passed.

The battery test has been successfully completed.

Low voltage on battery.

Check the battery.

The battery wiring is incorrect.

Check the battery wiring. Please contact Schneider Electric.

The battery or charger is inoperable.

Check the battery. Check the charger. Please contact Schneider Electric.

The bypass frequency exceeds the Check the status of the bypass

limit.

source. Please contact Schneider

Electric.

The UPS has one or more inoperable fans.

Check the fans.

Reset the service life timer for the fan.

The bypass voltage is out of tolerance.

Check the status of the bypass source. Please contact Schneider Electric.

The load is drawing more power Reduce the load. Please contact than the bypass source can supply. Schneider Electric.

The UPS can no longer sustain a Bypass overload situation.

Reduce the load. Please contact Schneider Electric.

The phase rotation on bypass is incorrect.

Check the status of the bypass source. Please contact Schneider Electric.

The bypass source is not available. Capacitor service life has expired.

Check the status of the bypass source. Please contact Schneider Electric.
Replace the capacitor.

Capacitor service life timer has been reset.

Clear the log.

Overvoltage on the DC bus.

The dust filter service life has expired.

Replace the Dust Filter, page 48.

An EPO (emergency power off) device is activated.

Deactivate the EPO (emergency power off) device.

Fan service life has expired.

Replace the fan.

The UPS has one or more inoperable fans.

Check the fans. Please contact Schneider Electric.

The fan service life timer has been reset.

The firmware is detected as incompatible with the rest of the system.

Perform a firmware update.

Generator is supplying the UPS.

52

990-91079G-001

Troubleshooting Display text Inhibit transfer to inv. Inlet temperature high Inlet/outlet temp Input current unbalanced
Input neutral unavailable
Input out of tolerance
Input overcurrent timeout
Input SCR fan inoperable
Input SCR temp high
Inverter high temp Inverter IGBT inoperable
Inverter inoperable Inverter overload timeout Inverter shutdown Inv DATA CAN incorrect Inv firmware upgrade Inv IO CAN incorrect Load on bypass
Load disconnected
Load on inverter
Low battery shutdown
Man. transfer to inverter
990-91079G-001

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Description

Corrective action

Inhibit transfer to inverter operation.

Air inlet temperature is too high.

Check the status of the air inlet. Reduce the room temperature.

Air inlet and outlet temperature.

Input current is unbalanced.

Check the status of the input source. Please contact Schneider Electric.

Input neutral is not available.

Check the status of the input neutral. Please contact Schneider Electric.

The input voltage is out of tolerance.

Check the status of the input source. Please contact Schneider Electric.

The UPS can no longer sustain an Input overcurrent situation.
Input SCR fan is inoperable.

Check the status of the input source. Please contact Schneider Electric.
Check the status of the input SCR fan. Please contact Schneider Electric.

Input SCR temperature is too high. Check the status of the input SCR fan. Please contact Schneider Electric.

Inverter temperature is too high.

Check the status of the inverter. Please contact Schneider Electric.

The inverter IGBT is inoperable.
The inverter is inoperable.
The UPS can no longer sustain an Inverter overload situation. The inverter is shutting down.

Check the status of the inverter IGBT. Please contact Schneider Electric.
Check the status of the inverter. Please contact Schneider Electric.
Check the status of the inverter. Please contact Schneider Electric.

Inverter DATA CAN is incorrect.
The inverter firmware has been upgraded.

Inverter IO CAN is incorrect.

The UPS is in static bypass mode and the load is supplied by the bypass source.

The load has been disconnected or Check the load. Close the unit

the unit output breaker UOB is

output breaker UOB.

open.

The UPS is in inverter operation mode and the load is supplied by the UPS.

The UPS is shutting down due to battery end of discharge

Recharge the batteries and restart the UPS. If auto-restart mode is configured, the UPS will start automatically restart when the mains return.

Manual transfer to inverter operation.

53

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Troubleshooting

Display text Manual shutdown MBB closed
MBB open Module ID duplicate No inlet temp sensor No input temp sensor No outlet temp sensor Nom power out of tolerance
Outlet temperature high Output short circuit Output overload Parallel cabling incorrect
Power sharing incorrect
PWM sync unavailable Rec firmware upgrade Rec soft start unavailable Rectifier high temp Rectifier inoperable Relay disconnected Relay short-circuit Room temp high Save settings Shutdown Signal cable disconnect

Description

Corrective action

Manual shutdown.

The maintenance bypass breaker MBB is closed, supplying the load with unprotected power from the bypass source.

The maintenance bypass breaker is open.

The module ID has a duplicate. The module ID must be unique.

Check the ID of the modules.

No inlet temperature sensor present.

Check the status of the inlet temperature sensor.

No input temperature sensor present.

Check the status of the input temperature sensor.

No outlet temperature sensor present.

Check the status of the outlet temperature sensor.

The nominal power does not match the UPS hardware.
Air outlet temperature is too high.
A short circuit is present on the output.

Check the status of the input source. Please contact Schneider Electric.
Check the status of the air outlet. Please contact Schneider Electric.
Check the status of the output. Please contact Schneider Electric.

The load is drawing more power than the UPS system can supply.

Reduce the load. Contact Schneider Electric.

The parallel cabling is incorrect.

Check the status of the parallel cables. Please contact Schneider Electric.

The power sharing between the UPS units is incorrect.
The PWM synchronization is unavailable. The rectifier firmware has been upgraded.

Please check the load sharing on the UPS units. Redistribute the load between UPS units. Please contact Schneider Electric.
Check the status of the PWM sync. Please contact Schneider Electric.

The rectifier soft start is unavailable.

Check the status of the rectifier. Please contact Schneider Electric.

The rectifier temperature is too high.

Check the status of the rectifier. Please contact Schneider Electric.

The rectifier is inoperable. A relay is disconnected. A relay has short- circuited.

Check the status of the rectifier. Please contact Schneider Electric.
Check the status of the relays. Please contact Schneider Electric.
Check the status of the relays. Please contact Schneider Electric.

The room temperature is high.

Reduce the room temperature.

Settings have been changed.

UPS shutdown.

Signal cable is disconnected.

Check the signal cable.

54

990-91079G-001

Troubleshooting

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

Display text Sync pulse unavailable System overload System setting incorrect Technical check recommended Transfer to bypass Transfer to inverter Transfers exceed limits
Warranty expiring soon

Description

Corrective action

Sync pulse is unavailable. The UPS is not able to synchronize.

Check the sync pulse. Please contact Schneider Electric.

The load is drawing more power than the UPS system can supply.

Reduce the load. Contact Schneider Electric.

The system settings are incorrect.
A technical check is recommended.
Transfer the UPS to static bypass mode.
Transfer the UPS to inverter operation.

Check the system settings. Contact Schneider Electric.
Contact Schneider Electric.

There have been too many

Contact Schneider Electric.

transfers between operation modes

in a given time period.

Warranty is expiring soon.

Contact Schneider Electric.

990-91079G-001

55

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1
Appendix: Switch/Breaker Details

Appendix: Switch/Breaker Details

3:1 UPS

10 kVA 15 kVA 20 kVA 30 kVA

Model UIB SIB UOB MBB BB UIB SIB UOB MBB BB UIB SIB UOB MBB BB UIB

SIB UOB MBB BB

Switch/Breaker Description

OSMC65H4C32 OSMC65H4C32 A9S68263 A9S68163 A9S68332

32A 4P 32A 4P 63A 2P 63A 1P 32A 3P

OSMC65H4C40 OSMC65H4C40 A9S68280 A9S68180 A9S68363

40A 4P 40A 4P 80A 2P 80A 1P 63A 3P

OSMC65H4C63 OSMC65H4C63 A9S68292 A9S68192 A9S68363

63A 4P 63A 4P 125A 2P 125A 1P 63A 3P

A9S68480
A9S68491 A9S68491 A9S68280 A9S68391

500VAC 80A 4P 100A 4P 100A 4P 80A 2P
100A 3P

Switch or Breaker Breaker Breaker Switch Switch Switch (for UPSs with internal batteries) Breaker Breaker Switch Switch Switch (for UPSs with internal batteries) Breaker Breaker Switch Switch Switch (for UPSs with internal batteries) Switch
Switch Switch Switch Switch (for UPSs with internal batteries)

3:3 UPS

10 kVA 15 kVA 20 kVA 30 kVA

Model UIB SIB UOB MBB BB UIB SIB UOB MBB BB UIB SIB UOB MBB BB UIB

56

Switch/Breaker Description

OSMC65H4C32 OSMC65H4C32 A9S68432 OSMC65H3C32 A9S68332

32A 4P 32A 4P 32A 4P 32A 3P 32A 3P

OSMC65H4C40 OSMC65H4C40 A9S68440 OSMC65H3C40 A9S68363

40A 4P 40A 4P 40A 4P 40A 3P 63A 3P

OSMC65H4C63 OSMC65H4C63 A9S68463 OSMC65H3C50 A9S68363

63A 4P 63A 4P 63A 4P 50A 3P 63A 3P

A9S68480

500VAC 80A 4P

Switch or Breaker Breaker Breaker Switch Breaker Switch (for UPSs with internal batteries) Breaker Breaker Switch Breaker Switch (for UPSs with internal batteries) Breaker Breaker Switch Breaker Switch (for UPSs with internal batteries) Switch

990-91079G-001

Appendix: Switch/Breaker Details

40 kVA

SIB
UOB
MBB
BB UIB SIB UOB MBB BB

A9S68480
A9S68480
A9S68363
A9S68391 A9S68492 A9S68492 A9S68492 A9S68380 A9S68392

10-40 kVA 400 V & 10-20 kVA 208 V 3:3,10-30 kVA 400 V 3:1

500VAC 80A 4P
500VAV 80A 4P
500VAC 63A 3P
100A 3P
125A 4P
125A 4P
125A 4P
80A 3P
125A 3P

Switch
Switch
Switch
Switch (for UPSs with internal batteries) Switch Switch Switch Switch Switch (for UPSs with internal batteries)

990-91079G-001

57

Schneider Electric 35 rue Joseph Monier 92500 Rueil Malmaison France + 33 (0) 1 41 29 70 00
990-91079G-001
As standards, specifications, and design change from time to time, please ask for confirmation of the information given in this publication.
© 2017 ­ 2023 Schneider Electric. All rights reserved. 990-91079G-001

References

• Schneider Electric Global | Global Specialist in Energy Management and Automation
• Schneider Electric Global | Global Specialist in Energy Management and Automation

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