Galaxy VX 480 V UPS System Technical Specifications 07/2020 www.schneider-electric.com
Electrical equipment should only be installed, operated, serviced, and maintained by qualified personnel. No responsibility is assumed by Schneider Electric ...
Jul 1, 2020 — Electrical equipment should only be installed, operated, serviced, and maintained by qualified personnel. No responsibility is assumed by Schneider Electric ...
File Info : application/pdf, 54 Pages, 3.42MB
Document DocumentGalaxy VX
480 V UPS System Technical Specifications
07/2020
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.
Go to: https://www.productinfo.schneider-electric.com/galaxyvx_ul/ or scan the QR code above for digital experience and translated manuals.
Table of Contents
480 V UPS System
990-5451F-001
Important Safety Instructions -- SAVE THESE INSTRUCTIONS .........................................................................................5
FCC Statement ..........................................................................................6 Safety Precautions .....................................................................................6
Technical Data.............................................................................................8
System Overview .......................................................................................8 Model List ..................................................................................................9 Overview of Configurations .......................................................................10
Overview of UPSs with 1250 kW I/O Cabinet - Single Utility/ Mains................................................................................................. 11 Overview of UPSs with 1250 kW I/O Cabinet - Dual Utility/Mains ............ 11 Overview of UPS with Remote Maintenance Bypass Cabinet Dual Utility/Mains System............................................................................12 Overview of UPSs with 1500 kW I/O Cabinet Single Utility/ Mains ................................................................................................. 12 Overview of UPSs with 1500 kW I/O Cabinet Dual Utility/Mains ...........13 Input Power Factor ...................................................................................13 Input Voltage Window ...............................................................................14 Inverter Short-Circuit Capabilities (Bypass not Available).............................14 Efficiency for UPSs with 1250 kW I/O Cabinet.............................................15 Efficiency for UPSs with 1500 kW I/O Cabinet.............................................17 Derating Due to Load Power Factor ...........................................................17 Batteries ..................................................................................................18 Battery Runtimes for Li-Ion Battery Cabinets LIBATTSMGGIEC .............18 Typical Battery Runtimes for Classic Battery Cabinets ...........................20 End of Discharge Voltage ....................................................................20 Battery Voltage Range ........................................................................21 Compliance .............................................................................................. 21 Communication and Management .............................................................21 EPO Connections ...............................................................................22 Overview of Input Contacts and Output Relays......................................22
Facility Planning ........................................................................................24
Specifications for 500 kW UPS ..................................................................24 Specifications for 625 kW UPS ..................................................................26 Specifications for 750 kW UPS ..................................................................28 Specifications for 800 kW UPS ..................................................................30 Specifications for 1000 kW UPS ................................................................32 Specifications for 1100 kW UPS.................................................................34 Specifications for 1250 kW UPS ................................................................36 Specifications for 1500 kW UPS ................................................................38 Recommended Upstream Protection and Cable Sizes UL .........................39 Recommended Bolt and Lug Sizes for Copper Cables.................................41 Recommended Bolt and Lug Sizes for Aluminium Cables ............................42 Weights and Dimensions...........................................................................42
Weights and Dimensions for UPSs with 1250 kW I/O Cabinet.................42 Weights and Dimensions for UPSs with 1500 kW I/O Cabinet.................43 Maintenance Bypass Cabinet Weights and Dimensions .........................43 Clearance ................................................................................................43
3
480 V UPS System
Clearance for UPSs with 1250 kW I/O Cabinet ......................................43 Clearance for UPSs with 1500 kW I/O Cabinet ......................................44 Guidance for Organizing Battery Cables.....................................................44 Environment............................................................................................. 45 Heat Dissipation (BTU/hr) for UPSs with 1250 kW I/O Cabinet .....................45 Heat Dissipation (BTU/hr) for UPSs with 1500 kW I/O Cabinet .....................48
Options .......................................................................................................50
Hardware Options.....................................................................................50 Configuration Options ...............................................................................50
Limited Factory Warranty.........................................................................51
4
990-5451F-001
Important Safety Instructions -- SAVE THESE INSTRUCTIONS
480 V UPS System
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.
990-5451F-001
5
480 V UPS System
FCC Statement
Important Safety Instructions -- SAVE THESE INSTRUCTIONS
NOTE: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.
Safety Precautions
DANGER
HAZARD OF ELECTRIC SHOCK, EXPLOSION, OR ARC FLASH · The product must be installed according to the specifications and
requirements as defined by Schneider Electric. It concerns in particular the external and internal protections (upstream circuit breakers, battery circuit breakers, cabling, etc.) and environmental requirements. No responsibility is assumed by Schneider Electric if these requirements are not respected. · After the UPS system has been electrically wired, do not start up the system. Start-up must only be performed by Schneider Electric. Failure to follow these instructions will result in death or serious injury.
DANGER
HAZARD OF ELECTRIC SHOCK, EXPLOSION, OR ARC FLASH
The UPS System must be installed according to local and national regulations. Install the UPS according to: · IEC 60364 (including 60364441- protection against electric shock, 60364
442 - protection against thermal effect, and 60364443 - protection against overcurrent), or · NEC NFPA 70 depending on which one of the standards apply in your local area.
Failure to follow these instructions will result in death or serious injury.
DANGER
HAZARD OF ELECTRIC SHOCK, EXPLOSION, OR ARC FLASH · Install the UPS system in a temperature controlled area free of conductive
contaminants and humidity. · Install the UPS system on a non-inflammable, level, and solid surface (e.g.
concrete) that can support the weight of the system. Failure to follow these instructions will result in death or serious injury.
6
990-5451F-001
Important Safety Instructions -- SAVE THESE INSTRUCTIONS
480 V UPS System
DANGER
HAZARD OF ELECTRIC SHOCK, EXPLOSION, OR ARC FLASH
The UPS is not designed for and must therefore not be installed in the following unusual operating environments: · Damaging fumes · Explosive mixtures of dust or gases, corrosive gases, or conductive or
radiant heat from other sources · Moisture, abrasive dust, steam or in an excessively damp environment · Fungus, insects, vermin · Salt-laden air or contaminated cooling refrigerant · Pollution degree higher than 2 according to IEC 60664-1 · Exposure to abnormal vibrations, shocks, and tilting · Exposure to direct sunlight, heat sources, or strong electromagnetic fields Failure to follow these instructions will result in death or serious injury.
NOTICE
RISK OF OVERHEATING
Respect the clearance requirements around the UPS system and do not cover the product's ventilation openings when the UPS system is in operation.
Failure to follow these instructions can result in equipment damage.
NOTICE
RISK OF EQUIPMENT DAMAGE
Do not connect the UPS output to regenerative load systems including photovoltaic systems and speed drives.
Failure to follow these instructions can result in equipment damage.
990-5451F-001
7
480 V UPS System
Technical Data
Technical Data
System Overview
Each Galaxy VX UPS consists of the following components: · An I/O cabinet for wield wiring containing the static switch, a backfeed protection switch, and the user interface. · A number of 250 kW power cabinets containing the power electronics.
UPSs with 1250 kW I/O Cabinet
The 1250 kW I/O cabinet is used for UPS systems from a minimum configuration of 500 kW with two power cabinets to a maximum configuration of 1250 kW N+1 with six power cabinets. The I/O cabinet is placed to the left and two to six power cabinets (depending on system size) are placed to the right. The image below shows the maximum configuration.
UPSs with 1500 kW I/O Cabinet
The 1500 kW I/O cabinet is used for UPS systems from a minimum configuration of 500 kW with two power cabinets to a maximum configuration of 1500 kW N+1 with seven power cabinets. The image below shows the maximum configuration.
Maintenance Bypass Cabinet for UPSs with a Maximum Rating of 750 kW
The maintenance bypass cabinet contains the following breakers to isolate the UPS during maintenance:
8
990-5451F-001
Technical Data
· Static switch input breaker (SSIB) · Maintenance bypass breaker (MBB) · Unit output breaker (UOB)
Maintenance Bypass Cabinet
480 V UPS System
Model List
UPSs with 1250 kW I/O Cabinet
· GVX500K500NGS: Galaxy VX 500 kW, 480 V, start-up 5x8 · GVX500K750NGS: Galaxy VX 500 kW scalable to 750 kW 480 V, start-up
5x8 · GVX500K1000NGS: Galaxy VX 500 kW scalable to 1000 kW 480 V, start-up
5x8 · GVX500K1250NGS: Galaxy VX 500 kW scalable to 1250 kW 480 V, start-up
5x8 · GVX625K625NGS: Galaxy VX 625 kW, 480 V, start-up 5x8 · GVX625K1000NGS: Galaxy VX 625 kW scalable to 1000 kW 480 V, start-up
5x8 · GVX750K500NGS: Galaxy VX 500 kW N+1 redundant UPS 480 V, start-up
5x8 · GVX750K750NGS: Galaxy VX 750 kW, 480 V, start-up 5x8
· GVX750K1000NGS: Galaxy VX 750 kW scalable to 1000 kW 480 V, start-up 5x8
· GVX750K1250NGS: Galaxy VX 750 kW scalable to 1250 kW 480 V, start-up 5x8
· GVX800K800NGS: Galaxy VX 800 kW, 480 V, start-up 5x8
· GVX1000K750NGS: Galaxy VX 750 kW N+1 redundant UPS 480 V, start-up 5x8
· GVX1000K1000NGS: Galaxy VX 1000 kW, 480 V, start-up 5x8 · GVX1000K1250NGS: Galaxy VX 1000 kW scalable to 1250 kW 480 V, start-
up 5x8 · GVX1100K1100NGS: Galaxy VX 1100 kW, 480 V, Start-up 5x8 · GVX1250K1000NGS: Galaxy VX 1000 kW N+1 redundant UPS 480 V, start-
up 5x8 · GVX1250K1250NGS: Galaxy VX 1250 kW, 480 V, start-up 5x8
· GVX1500K1100NGS: Galaxy VX 1100 kW N+1 Redundant UPS 480 V, Start up 5x8
· GVX1500K1250NGS: Galaxy VX 1250 kW N+1 Redundant UPS 480 V, startup 5x8
990-5451F-001
9
480 V UPS System
Technical Data
UPSs with 1500 kW I/O Cabinet
· GVX500K1500GS: Galaxy VX 500 kW 480 V scalable to 1500 kW, start-up 5x8
· GVX750K1500GS: Galaxy VX 750 kW 480 V scalable to 1500 kW, start-up 5x8
· GVX1000K1500GS:Galaxy VX 1000 kW scalable to 1500 kW 480 V, start-up 5x8
· GVX1250K1500GS: Galaxy VX 1250 kW scalable to 1500 kW 480 V, start-up 5x8
· GVX1500K1500GS: Galaxy VX 1500 kW 480 V, start-up 5x8
· GVX1750K1500GS: Galaxy VX 1500 kW N+1 Redundant UPS 480 V, startup 5x8
Maintenance Bypass Cabinets
· GVXMBCR625KG: Galaxy VX 625 kW 480 V remote maintenance bypass cabinet
· GVXMBCR750KG: Galaxy VX 750 kW 480 V remote maintenance bypass cabinet
Overview of Configurations
Breakers in the System
UIB SSIB BB MBB UOB BF2
Unit input breaker Static switch input breaker Battery breaker Maintenance bypass breaker Unit output breaker Backfeed protection switch
10
990-5451F-001
Technical Data
480 V UPS System
Overview of UPSs with 1250 kW I/O Cabinet - Single Utility/Mains
The illustration shows a 750 kW UPS. The principle is the same for the other UPSs with the 1250 kW I/O cabinet.
Overview of UPSs with 1250 kW I/O Cabinet - Dual Utility/Mains
The illustration shows a 750 kW UPS. The principle is the same for the other UPSs with the 1250 kW I/O cabinet.
990-5451F-001
11
480 V UPS System
Technical Data
Overview of UPS with Remote Maintenance Bypass Cabinet Dual Utility/Mains System
Overview of UPSs with 1500 kW I/O Cabinet Single Utility/Mains
The illustration shows a 1500 kW UPS. The principle is the same for the other UPSs with the 1500 kW I/O cabinet.
Galaxy VX 1500 kW UPS
12
990-5451F-001
Technical Data
480 V UPS System
Overview of UPSs with 1500 kW I/O Cabinet Dual Utility/Mains
The illustration shows a 1500 kW UPS. The principle is the same for the other UPSs with the 1500 kW I/O cabinet.
Galaxy VX 1500 kW UPS
Input Power Factor
25% load 50% load 75% load 100% load
500 kW 0.98 0.99 0.99 0.99
625 kW 0.98 0.99 0.99 0.99
750 kW 0.98 0.99 0.99 0.99
800 kW 0.98 0.99 0.99 0.99
1000 kW 0.98 0.99 0.99 0.99
1100 kW 0.98 0.99 0.99 0.99
1250 kW 0.98 0.99 0.99 0.99
1500 kW 0.98 0.99 0.99 0.99
990-5451F-001
13
480 V UPS System
Input Voltage Window
Technical Data
Inverter Short-Circuit Capabilities (Bypass not Available)
IK1 Short-Circuit between a Phase and Neutral
14
990-5451F-001
Technical Data
IK2 Short-Circuit between Two Phases
480 V UPS System
IK3 Short-Circuit between All Three Phases
Efficiency for UPSs with 1250 kW I/O Cabinet
Efficiency for a 500 kW UPS
25% load 50% load 75% load 100% load
Normal operation 94.9% 95.9% 96.0% 95.9%
ECO mode 97.3% 98.4% 98.8% 99.0%
ECOnversion 96.9% 98.2% 98.7% 98.9%
Battery operation 96.6% 96.7% 96.3% 95.9%
990-5451F-001
15
480 V UPS System
Efficiency for a 625 kW UPS
25% load 50% load 75% load 100% load
Normal operation 95.0% 96.2% 96.3% 96.2%
Efficiency for a 750 kW UPS
25% load 50% load 75% load 100% load
Normal operation 95.4% 96.1% 96.0% 95.8%
Efficiency for an 800 kW UPS
25% load 50% load 75% load 100% load
Normal operation 95.2% 96.2% 96.1% 96.3%
Efficiency for a 1000 kW UPS
25% load 50% load 75% load 100% load
Normal operation 95.6% 96.3% 96.2% 96.0%
Efficiency for a 1100 kW UPS
25% load 50% load 75% load 100% load
Normal operation 95.8% 96.4% 96.3% 96.1%
Efficiency for a 1250 kW UPS
25% load 50% load 75% load 100% load
Normal operation 95.8% 96.4% 96.2% 96.0%
ECO mode 97.5% 98.6% 98.8% 99.0%
ECO mode 97.9% 98.6% 98.8% 98.9%
ECO mode 98.7% 98.9% 98.9% 99.0%
ECO mode 98.1% 98.8% 99.0% 99.1%
ECO mode 98.3% 98.9% 99.0% 99.1%
ECO mode 98.3% 98.9% 99.1% 99.1%
16
Technical Data
ECOnversion 97.1% 98.4% 98.7% 98.9%
Battery operation 96.6% 96.7% 96.3% 95.9%
ECOnversion 97.7% 98.5% 98.7% 98.9%
Battery operation 96.5% 96.6% 96.2% 95.8%
ECOnversion 97.4% 98.5% 98.8% 99.1%
Battery operation 98.9% 96.6% 96.8% 96.3%
ECOnversion 97.9% 98.7% 98.9% 99.1%
Battery operation 96.6% 96.7% 96.3% 95.9%
ECOnversion 97.8% 98.7% 98.9% 99.0%
Battery operation 97.8% 98.7% 98.9% 99.0%
ECOnversion 97.9% 98.7% 99.0% 99.1%
Battery operation 96.6% 96.6% 96.3% 96.1%
990-5451F-001
Technical Data
Efficiency for UPSs with 1500 kW I/O Cabinet
Efficiency for a 500 kW UPS
25% load 50% load 75% load 100% load
Normal operation 95.8% 96.4% 96.2% 96.1%
ECO mode 98.5% 99.1% 99.2% 99.2%
ECOnversion 98.2% 99.1% 99.2% 99.2%
Efficiency for a 750 kW UPS
25% load 50% load 75% load 100% load
Normal operation 95.9% 96.5% 96.3% 96.0%
ECO mode 98.5% 99.1% 99.2% 99.2%
ECOnversion 98.2% 99.0% 99.2% 99.2%
Efficiency for a 1000 kW UPS
25% load 50% load 75% load 100% load
Normal operation 95.9% 96.5% 96.4% 95.9%
ECO mode 98.6% 99.1% 99.2% 99.2%
ECOnversion 98.2% 99.0% 99.2% 99.2%
Efficiency for a 1250 kW UPS
25% load 50% load 75% load 100% load
Normal operation 96.0% 96.6% 96.4% 96.0%
ECO mode 98.7% 99.2% 99.3% 99.3%
ECOnversion 98.3% 99.1% 99.3% 99.3%
Efficiency for a 1500 kW UPS
25% load 50% load 75% load 100% load
Normal operation 96.0% 96.5% 96.3% 96.0%
ECO mode 98.7% 99.1% 99.3% 99.3%
ECOnversion 98.3% 99.1% 99.3% 99.3%
Derating Due to Load Power Factor
0.7 leading to 0.5 lagging without derating.
480 V UPS System
Battery operation 95.9% 96.4% 96.0% 95.6%
Battery operation 95.9% 96.4% 96.0% 95.6%
Battery operation 95.9% 96.4% 96.0% 95.6%
Battery operation 95.9% 96.4% 96.0% 95.6%
Battery operation 95.9% 96.4% 96.1% 95.7%
990-5451F-001
17
480 V UPS System
Technical Data
Batteries
Battery Runtimes for Li-Ion Battery Cabinets LIBATTSMGGIEC
500 kW UPS
NOTE: Please allow for a tolerance of ±10% at the beginning of life.
The estimated battery runtimes are based on an environment with an ambient temperature of 23 °C (75 °F).
Number of LIBATTSMGGIEC cabinets
25% load
50% load
75% load
100% load
3
46:30 23:00 14:30 10:30
4
62:30 31:00 20:00 14:30
5
78:30 39:00 25:30 18:30
6
94:30 47:00 31:00 22:30
7
8
9
10
11
12
110:00 55:00 36:00 27:00
125:00 63:00 41:30 31:00
140:00 71:00 47:00 35:00
155:00 79:00 52:00 39:00
170:00 87:00 57:30 43:00
185:00 95:00 63:00 46:30
625 kW UPS
Number of LIBATTSMGGIEC cabinets
25% load
50% load
75% load
100% load
3
37:00 18:00 11:30 5:051
4
49:30 24:30 16:00 11:30
5
62:30 31:00 20:00 14:30
6
75:00 37:30 24:30 18:00
7
88:00 43:30 29:00 21:00
8
9
10
11
12
100:00 50:00 33:00 24:30
110:00 56:30 37:30 27:30
125:00 63:00 41:30 31:00
135:00 69:30 46:00 34:00
150:00 76:00 50:00 37:00
750 kW UPS
Number of LIBATTSMGGIEC cabinets
25% load
50% load
75% load
100% load
4
41:30 20:00 13:00 9:301
5
52:00 25:30 16:30 12:00
6
63:00 31:00 20:00 14:30
7
73:30 36:30 23:30 17:30
8
84:00 41:30 27:30 20:00
9
94:30 47:00 31:00 22:30
10
11
12
105:00 52:30 34:30 25:30
115:00 57:30 38:00 28:00
125:00 63:00 41:30 31:00
1. Only partial discharge 18
990-5451F-001
Technical Data
800 kW UPS
Number of LIBATTSMGGIEC cabinets
25% load
50% load
75% load
100% load
4
39:00 19:00 12:00 7:452
1000 kW UPS
Number of LIBATTSMGGIEC cabinets
25% load
50% load
75% load
100% load
5
39:00 19:00 12:00 7:352
1100 kW UPS
Number of LIBATTSMGGIEC cabinets
25% load
50% load
75% load
100% load
5
35:00 17:00 11:00 1:002
1250 kW UPS
Number of LIBATTSMGGIEC cabinets
25% load
50% load
75% load
100% load
6
37:30 18:00 11:30 5:052
1500 kW UPS
Number of LIBATTSMGGIEC cabinets
25% load
50% load
75% load
100% load
7
36:30 17:30 11:00 2:252
480 V UPS System
5
6
7
8
9
10
11
12
49:00 24:00 15:30 11:00
59:00 29:00 19:00 14:00
69:00 34:00 22:00 16:30
79:00 39:00 25:30 19:00
88:30 44:00 29:00 21:30
98:30 49:00 32:30 24:00
105:00 54:30 35:30 26:30
115:00 59:30 39:00 29:00
6
47:00 23:00 15:00 10:30
7
55:00 27:00 17:30 12:30
8
63:00 31:00 20:00 14:30
9
71:00 35:00 23:00 16:30
10
79:00 39:00 25:30 18:30
11
87:00 43:00 28:00 20:30
12
95:00 47:00 31:00 22:30
6
42:30 21:00 13:30 9:502
7
50:00 24:30 16:00 11:30
8
57:00 28:00 18:00 13:30
9
64:30 32:00 20:30 15:00
10
71:30 35:30 23:00 17:00
11
79:00 39:00 25:30 19:00
12
86:00 43:00 28:00 20:30
7
43:30 21:30 13:30 10:00
8
50:00 24:30 16:00 11:30
9
56:30 28:00 18:00 13:00
10
63:00 31:00 20:00 14:30
11
69:30 34:00 22:30 16:30
12
76:00 37:30 24:30 18:00
8
41:30 20:00 13:00 9:302
9
47:00 23:00 14:30 10:30
10
52:30 25:30 16:30 12:00
11
57:30 28:30 18:30 13:30
12
63:00 31:00 20:00 14:30
13
68:30 33:30 22:00 16:00
2. Only partial discharge
990-5451F-001
19
480 V UPS System
1500 kW UPS
Number of LIBATTSMGGIEC cabinets
25% load
50% load
75% load
100% load
14
73:30 36:30 23:30 17:30
15
79:00 39:00 25:30 18:30
16
84:00 41:30 27:00 20:00
17
89:30 44:30 29:00 21:30
18
94:30 47:00 30:30 22:30
Technical Data
19
100:00 49:30 32:30 24:00
20
105:00 52:30 34:30 25:30
Typical Battery Runtimes for Classic Battery Cabinets
Part Number
Battery
GVXCBC400E490 C&D GVXCBC400E540 GVXCBC600E490 GVXCBC600E540 GVXCBC400P505 Enersys GVXCBC400P540 GVXCBC600P505 GVXCBC600P540
Description
400 A and 490 watt/ cell batt
400 A and 540 watt/ cell batt
600 A and 490 watt/ cell batt
600 A and 540 watt/ cell batt
400 A and 505 watt/ cell batt
400 A and 540 watt/ cell batt
600 A and 505 watt/ cell batt
600 A and 540 watt/ cell batt
500 kW
Runtime3
3 battery cabinets: 7 min 09 sec
3 battery cabinets: 8 min 56 sec
3 battery cabinets: 7 min 09 sec
3 battery cabinets: 8 min 56 sec
3 battery cabinets: 8 min 19 sec
3 battery cabinets: 9 min 18 sec
3 battery cabinets: 8 min 19 sec
3 battery cabinets: 9 min 18 sec
625 kW
4 battery cabinets: 8 min 28 sec NA
4 battery cabinets: 8 min 28 sec 3 battery cabinets: 5 min 37 sec NA
NA
3 battery cabinets: 5 min 28 sec 3 battery cabinets: 6 min 18 sec
750 kW
4 battery cabinets: 5 min 26 sec
4 battery cabinets: 7 min 08 sec
4 battery cabinets: 5 min 26 sec
4 battery cabinets: 7 min 08 sec
4 battery cabinets: 6 min 46 sec
4 battery cabinets: 7 min 40 sec
4 battery cabinets: 6 min 46 sec
4 battery cabinets: 7 min 40 sec
End of Discharge Voltage
The voltage is 1.6 to 1.75 per cell depending on discharge ratio.
3. Based on max. 2% voltage drop and 100% load 20
990-5451F-001
Technical Data
Battery Voltage Range
480 V UPS System
Compliance
Safety EMC/EMI/RFI Performance Markings Transportation Seismic zone
UL 1778 5th edition FCC 15B, class A IEC620403 UL1778 Listing and CSA C22.2 NO.107.3 IEC 60721-4-2 Level 2M2 OSHPD, IBC2012 and CBC2013 to SDS = 1.83 g
Communication and Management
Local Area Network Extensions MODBUS Relay outputs Dry contact inputs Standard control panel Audible alarm Emergency Power Off (EPO)
External switchgear
100 Mbps
Two optional Network Management Cards
MODBUS TCP/IP 6 configurable
5 configurable
7" touch-screen display
Yes Options:
· Normally Open (NO) · Normally Closed (NC) · External 24 VDC SELV Option containing: · Unit Input Breaker (UIB) · Unit Output Breaker (UOB)
990-5451F-001
21
480 V UPS System
External synchronization Battery monitoring
EPO Connections
· Static Switch Input Breaker (SSIB) · Maintenance Bypass Breaker (MBB) · System Isolation Breaker (SIB)
Yes
Yes -- string level breaker monitoring
Technical Data
Overview of Input Contacts and Output Relays
Input Contacts
Do not connect any circuit to the input contacts unless it can be confirmed that the circuit is Class 2/SELV.
All circuits connected must have the same 0 V reference.
The switch SW5500 on 0P6548 is used to select between internal SELV supply for inputs (standard setting) and external supply4. If external supply is selected, the supply must be connected to J5530.
Name IN 1 (Contact 1) IN 2 (Contact 2) IN 3 (Contact 3) IN 4 (Contact 4) IN 5 (Contact 5) IN 6 IN 7 IN 8 IN 9 IN 10 IN 11 IN 14
Description Configurable input contact Configurable input contact Configurable input contact Configurable input contact Configurable input contact UOB redundant AUX contact Transformer temperature switch External bonding contact Forced external synchronization input External synchronization requested Use static bypass standby MegaTie
Location 0P6548 terminal J55025 0P6548 terminal J55035 0P6548 terminal J55045 0P6548 terminal J55055 0P6548 terminal J55105 0P6548 terminal J55095 0P6548 terminal J55085 0P6548 terminal J55075 0P6548 terminal J55065 0P6548 terminal J55115 0P6548 terminal J55125 0P6552 terminal J90275
4. An external supply is useful in parallel systems where inputs are connected between different UPSs. This is to have a common reference and to avoid cross currents.
5. Class 2/SELV wiring
22
990-5451F-001
Technical Data
480 V UPS System
Output Relays
NOTE: Maximum 250 VAC 5 A must be connected to the output relays. All external circuitry must be fused with maximum 5 A fast acting fuses.
Name OUT 1 (Relay 1) OUT 2 (Relay 2) OUT 3 (Relay 3) OUT 4 OUT 5 OUT 6 OUT 7 OUT 8 (Relay 4) OUT 9 (Relay 5) OUT 10 (Relay 6) OUT 14
Description Configurable output relay Configurable output relay Configurable output relay Forced external synchronization output MegaTie External synchronization requested output UPS in inverter ON Configurable output relay Configurable output relay Configurable output relay Bonding contactor
Location 0P6547 terminal J4939 0P6547 terminal J4940 0P6547 terminal J4941 0P6548 terminal J55206 0P6548 terminal J55216 0P6548 terminal J55226 0P6548 terminal J55236 0P6548 terminal J55246 0P6548 terminal J55256 0P6548 terminal J55286 0P6552 terminal J90296
NOTE: Refer to the operation manual for configuration options.
6. Class 2/SELV wiring
990-5451F-001
23
480 V UPS System
Facility Planning
Facility Planning
Specifications for 500 kW UPS
Input Specifications
Voltage (V) Connections
Input voltage range (V)9 Frequency (Hz) Nominal input current (A) Maximum input current (A)10 Input current limitation (A) Total harmonic distortion (THDI) Input power factor Protection Ramp-in Connections
Bypass voltage range (V) Frequency (Hz) Frequency range (Hz) Nominal bypass current (A) Maximum short circuit rating Thyristor I²t (kA*s²)
BF2 magnetic trip Protection
380
400
415
440 V
480 V
IEC: L1, L2, L3, PE 7 UL: L1, L2, L3 + G 8
340-456
340-480
353-498
374-528
408-576
40-70
800
760
731
685
633
886
851
819
767
728
890
832
760
<3% at 100% load, <4% at 50% load, <9% at 25% load
0.99 at >40% load, 0.98 at >20% load, 0.97 at >10% load
Contactors Adaptive 1-300 seconds
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE 11 UL: L1, L2, L3, G or L1, L2, L3, N, G
342-418
360-440
374-457
396-484
432-528
50 or 60
Programmable: ±0.1, ±3, ±10. Default is ±3
767
729
703
663
606
100 kA RMS (conditioned by an internal molded switch with 90 kA peak magnetic trip)
9680 (1250 kW I/O) 16245 (1500 kW I/O)
9165 (1250 kW I/O) 16245 (1500 kW I/O)
39 kA
Molded switch with trip for backfeed protection
Bypass Specifications
7. TN, TT, and IT power distribution systems are supported. 8. WYE source solid grounded and high resistance grounded sources are supported. Corner (line) grounding is not supported. 9. The system can operate at 600 V for 1 minute. 10. At nominal input voltage and full charge. 11. TN, TT, and IT power distribution systems with no earthed line conductors are supported.
24
990-5451F-001
Facility Planning
480 V UPS System
Output Specifications
Voltage (V)
380
400
415
440 V
480 V
Connections
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE UL: L1, L2, L3, G, GEC12 or L1, L2, L3, N, G
Overload capacity
Normal operation: 150% for 1 minute, 125% for 10 minutes Battery operation: 115% for 1 minute Bypass operation: 110%13 continuous, 1000% for 60 milliseconds for systems with 1250 kW I/O cabinet and 100 milliseconds for systems with 1500 kW I/O cabinet
Output voltage tolerance
Balanced load: ±1%, Unbalanced load: ±3%
Dynamic load response
±5% after 2 ms, ±1% after 50 ms
Output power factor
1
Nominal output current (A)
760
722
696
656
601
Total harmonic distortion (THDU)
<2% at 100% linear load, <3% at 100% non-linear load
Output frequency (Hz)
50/60 (synchronized to bypass), 50/60 Hz ±0.1% (free-running)
Slew rate (Hz/sec)
Programmable: 0.25, 0.5, 1, 2, 4, 6
Output performance classification (according to IEC/ EN62040-3)
Double-conversion: VFI-SS-111
Load crest factor
Up to 3 (THDU < 5%)
Load power factor
0.7 leading to 0.5 lagging without derating
Charging power in % of output power Maximum charging power (kW) Nominal battery voltage (VDC)
35% at 80% load, 12% at 100% load 60 at 100% load, 175 at <80% load 480
40% at 80% load, 15% at 100% load
75 at 100% load, 200 at 80% load
Nominal float voltage (VDC)
546
End of discharge voltage (full load) (VDC) 384
End of discharge voltage (no load) (VDC) 420
Battery current at full load and nominal battery voltage (A)
1090
Battery current at full load and minimum battery voltage (A)
1362
Maximum battery backup time
Unlimited
Temperature compensation (per cell)
-3.3 mV per °C for T 25 °C, 0 mV per °C for T < 25 °C
Ripple current
< 5% C20 (5 minutes backup time)
Battery test
Manual/automatic (selectable)
Deep discharge protection
Yes
Recharge according to battery temperature Yes
Battery Specifications
12. Per NEC 250.30. 13. 125% for 480 V.
990-5451F-001
25
480 V UPS System
Specifications for 625 kW UPS
Facility Planning
Input Specifications
Bypass Specifications
Voltage (V) Connections
Input voltage range (V)16 Frequency (Hz) Nominal input current (A) Maximum input current (A)17 Input current limitation (A) Total harmonic distortion (THDI) Input power factor Protection Ramp-in Connections
Bypass voltage range (V) Frequency (Hz) Frequency range (Hz) Nominal bypass current (A) Maximum short circuit rating Thyristor I²t (kA*s²) BF2 magnetic trip Protection Connections
Overload capacity
Output voltage tolerance Dynamic load response Output power factor Nominal output current (A) Total harmonic distortion (THDU) Output frequency (Hz) Slew rate (Hz/sec) Output performance classification (according to IEC/ EN62040-3) Load crest factor Load power factor
380
400
415
440 V
480 V
IEC: L1, L2, L3, PE 14 UL: L1, L2, L3 + G 15
340-456
340-480
353-498
374-528
408-576
40-70
1001
950
914
853
791
1107
1063
1024
956
910
1113
1040
950
<3% at 100% load, <4% at 50% load, <9% at 25% load
0.99 at >40% load, 0.98 at >20% load, 0.97 at >10% load
Contactors Adaptive 1-300 seconds
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE 18 UL: L1, L2, L3, G or L1, L2, L3, N, G
342-418
360-440
374-457
396-484
432-528
50 or 60
Programmable: ±0.1, ±3, ±10. Default is ±3
959
911
878
828
757
100 kA RMS (conditioned by an internal molded switch with 90 kA peak magnetic trip)
9680 (1250 kW I/O)
9165 (1250 kW I/O)
39 kA
Molded switch with trip for backfeed protection
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE UL: L1, L2, L3, G, GEC19 or L1, L2, L3, N, G
Normal operation: 150% for 1 minute, 125% for 10 minutes Battery operation: 115% for 1 minute Bypass operation: 110%20 continuous, 1000% for 60 milliseconds for systems with 1250 kW I/O cabinet and 100 milliseconds for systems with 1500 kW I/O cabinet
Balanced load: ±1%, Unbalanced load: ±3%
±5% after 2 ms, ±1% after 50 ms
1
950
902
870
820
752
<2% at 100% linear load, <3% at 100% non-linear load
50/60 (synchronized to bypass), 50/60 Hz ±0.1% (free-running)
Programmable: 0.25, 0.5, 1, 2, 4, 6
Double-conversion: VFI-SS-111
Up to 3 (THDU < 5%) 0.7 leading to 0.5 lagging without derating
Output Specifications
14. TN, TT, and IT power distribution systems are supported. 15. WYE source solid grounded and high resistance grounded sources are supported. Corner (line) grounding is not supported. 16. The system can operate at 600 V for 1 minute. 17. At nominal input voltage and full charge. 18. TN, TT, and IT power distribution systems with no earthed line conductors are supported. 19. Per NEC 250.30. 20. 125% for 480 V.
26
990-5451F-001
Facility Planning
Battery Specifications
Voltage (V) Charging power in % of output power
380
400
415
35% at 80% load, 12% at 100% load
440 V
Maximum charging power (kW)
75 at 100% load, 218.75 at <80% load
Nominal battery voltage (VDC) Nominal float voltage (VDC) End of discharge voltage (full load) (VDC) End of discharge voltage (no load) (VDC) Battery current at full load and nominal battery voltage (A) Battery current at full load and minimum battery voltage (A) Maximum battery backup time Temperature compensation (per cell) Ripple current Battery test Deep discharge protection Recharge according to battery temperature
480 546 384 420 1362
1703
Unlimited -3.3 mV per °C for T 25 °C, 0 mV per °C for T < 25 °C < 5% C20 (5 minutes backup time) Manual/automatic (selectable) Yes Yes
480 V UPS System
480 V 40% at 80% load, 15% at 100% load 93.75 at 100% load, 250 at 80% load
990-5451F-001
27
480 V UPS System
Specifications for 750 kW UPS
Facility Planning
Input Specifications
Bypass Specifications
Voltage (V) Connections
Input voltage range (V)23 Frequency (Hz) Nominal input current (A) Maximum input current (A)24 Input current limitation (A) Total harmonic distortion (THDI) Input power factor Protection Ramp-in Connections
Bypass voltage range (V) Frequency (Hz) Frequency range (Hz) Nominal bypass current (A) Maximum short circuit rating Thyristor I²t (kA*s²)
BF2 magnetic trip Protection Connections
Overload capacity
Output voltage tolerance Dynamic load response Output power factor Nominal output current (A) Total harmonic distortion (THDU) Output frequency (Hz) Slew rate (Hz/sec) Output performance classification (according to IEC/ EN62040-3) Load crest factor Load power factor
380
400
415
440 V
480 V
IEC: L1, L2, L3, PE 21 UL: L1, L2, L3 + G 22
340-456
340-480
353-498
374-528
408-576
40-70
1201
1139
1097
1029
950
1328
1276
1229
1153
1092
1335
1248
1140
<3% at 100% load, <4% at 50% load, <9% at 25% load
0.99 at >40% load, 0.98 at >20% load, 0.97 at >10% load
Contactors Adaptive 1-300 seconds
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE 25 UL: L1, L2, L3, G or L1, L2, L3, N, G
342-418
360-440
374-457
396-484
432-528
50 or 60
Programmable: ±0.1, ±3, ±10. Default is ±3
1151
1093
1054
994
909
100 kA RMS (conditioned by an internal molded switch with 90 kA peak magnetic trip)
9680 (1250 kW I/O) 16245 (1500 kW I/O)
9165 (1250 kW I/O) 16245 (1500 kW I/O)
39 kA
Molded switch with trip for backfeed protection
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE UL: L1, L2, L3, G, GEC26 or L1, L2, L3, N, G
Normal operation: 150% for 1 minute, 125% for 10 minutes Battery operation: 115% for 1 minute Bypass operation: 110%27 continuous, 1000% for 60 milliseconds for systems with 1250 kW I/O cabinet and 100 milliseconds for systems with 1500 kW I/O cabinet
Balanced load: ±1%, Unbalanced load: ±3%
±5% after 2 ms, ±1% after 50 ms
1
1140
1083
1043
984
902
<2% at 100% linear load, <3% at 100% non-linear load
50/60 (synchronized to bypass), 50/60 Hz ±0.1% (free-running)
Programmable: 0.25, 0.5, 1, 2, 4, 6
Double-conversion: VFI-SS-111
Up to 3 (THDU < 5%) 0.7 leading to 0.5 lagging without derating
Output Specifications
21. TN, TT, and IT power distribution systems are supported. 22. WYE source solid grounded and high resistance grounded sources are supported. Corner (line) grounding is not supported. 23. The system can operate at 600 V for 1 minute. 24. At nominal input voltage and full charge. 25. TN, TT, and IT power distribution systems with no earthed line conductors are supported. 26. Per NEC 250.30. 27. 125% for 480 V.
28
990-5451F-001
Facility Planning
Battery Specifications
Voltage (V) Charging power in % of output power
380
400
415
35% at 80% load, 12% at 100% load
440 V
Maximum charging power (kW)
90 at 100% load, 262 at <80% load
Nominal battery voltage (VDC) Nominal float voltage (VDC) End of discharge voltage (full load) (VDC) End of discharge voltage (no load) (VDC) Battery current at full load and nominal battery voltage (A) Battery current at full load and minimum battery voltage (A) Maximum battery backup time Temperature compensation (per cell) Ripple current Battery test Deep discharge protection Recharge according to battery temperature
480 546 384 420 1634
2043
Unlimited -3.3 mV per °C for T 25 °C, 0 mV per °C for T < 25 °C < 5% C20 (5 minutes backup time) Manual/automatic (selectable) Yes Yes
480 V UPS System
480 V 40% at 80% load, 15% at 100% load 112.5 at 100% load, 300 at 80% load
990-5451F-001
29
480 V UPS System
Specifications for 800 kW UPS
Facility Planning
Input Specifications
Bypass Specifications
Voltage (V) Connections
Input voltage range (V)30 Frequency (Hz) Nominal input current (A) Maximum input current (A)31 Input current limitation (A) Total harmonic distortion (THDI) Input power factor Protection Ramp-in Connections
Bypass voltage range (V) Frequency (Hz) Frequency range (Hz) Nominal bypass current (A) Maximum short circuit rating Thyristor I²t (kA*s²) BF2 magnetic trip Protection Connections
Overload capacity
Output voltage tolerance Dynamic load response Output power factor Nominal output current (A) Total harmonic distortion (THDU) Output frequency (Hz) Slew rate (Hz/sec) Output performance classification (according to IEC/ EN62040-3) Load crest factor Load power factor
380
400
415
440 V
480 V
IEC: L1, L2, L3, PE 28 UL: L1, L2, L3 + G 29
340-456
340-480
353-498
374-528
408-576
40-70
1281
1215
1170
1098
1013
1417
1361
1311
1230
1165
1424
1331
1216
<3% at 100% load, <4% at 50% load, <9% at 25% load
0.99 at >40% load, 0.98 at >20% load, 0.97 at >10% load
Contactors Adaptive 1-300 seconds
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE 32 UL: L1, L2, L3, G or L1, L2, L3, N, G
342-418
360-440
374-457
396-484
432-528
50 or 60
Programmable: ±0.1, ±3, ±10. Default is ±3
1228
1166
1124
1060
969
100 kA RMS (conditioned by an internal molded switch with 90 kA peak magnetic trip)
9680 (1250 kW I/O)
9165 (1250 kW I/O)
39 kA
Molded switch with trip for backfeed protection
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE UL: L1, L2, L3, G, GEC33 or L1, L2, L3, N, G
Normal operation: 150% for 1 minute, 125% for 10 minutes Battery operation: 115% for 1 minute Bypass operation: 110%34 continuous, 1000% for 60 milliseconds for systems with 1250 kW I/O cabinet and 100 milliseconds for systems with 1500 kW I/O cabinet
Balanced load: ±1%, Unbalanced load: ±3%
±5% after 2 ms, ±1% after 50 ms
1
1216
1155
1113
1050
962
<2% at 100% linear load, <3% at 100% non-linear load
50/60 (synchronized to bypass), 50/60 Hz ±0.1% (free-running)
Programmable: 0.25, 0.5, 1, 2, 4, 6
Double-conversion: VFI-SS-111
Up to 3 (THDU < 5%) 0.7 leading to 0.5 lagging without derating
Output Specifications
28. TN, TT, and IT power distribution systems are supported. 29. WYE source solid grounded and high resistance grounded sources are supported. Corner (line) grounding is not supported. 30. The system can operate at 600 V for 1 minute. 31. At nominal input voltage and full charge. 32. TN, TT, and IT power distribution systems with no earthed line conductors are supported. 33. Per NEC 250.30. 34. 125% for 480 V.
30
990-5451F-001
Facility Planning
Battery Specifications
Voltage (V) Charging power in % of output power
380
400
415
35% at 80% load, 12% at 100% load
440 V
Maximum charging power (kW)
96 at 100% load, 280 at <80% load
Nominal battery voltage (VDC) Nominal float voltage (VDC) End of discharge voltage (full load) (VDC) End of discharge voltage (no load) (VDC) Battery current at full load and nominal battery voltage (A) Battery current at full load and minimum battery voltage (A) Maximum battery backup time Temperature compensation (per cell) Ripple current Battery test Deep discharge protection Recharge according to battery temperature
480 546 384 420 1743
2179
Unlimited -3.3 mV per °C for T 25 °C, 0 mV per °C for T < 25 °C < 5% C20 (5 minutes backup time) Manual/automatic (selectable) Yes Yes
480 V UPS System
480 V 40% at 80% load, 15% at 100% load 120 at 100% load, 320 at 80% load
990-5451F-001
31
480 V UPS System
Specifications for 1000 kW UPS
Facility Planning
Input Specifications
Bypass Specifications
Voltage (V) Connections
Input voltage range (V)37 Frequency (Hz) Nominal input current (A) Maximum input current (A)38 Input current limitation (A) Total harmonic distortion (THDI) Input power factor Protection Ramp-in Connections
Bypass voltage range (V) Frequency (Hz) Frequency range (Hz) Nominal bypass current (A) Maximum short circuit rating Thyristor I²t (kA*s²)
BF2 magnetic trip Protection Connections
Overload capacity
Output voltage tolerance Dynamic load response Output power factor Nominal output current (A) Total harmonic distortion (THDU) Output frequency (Hz) Slew rate (Hz/sec) Output performance classification (according to IEC/ EN62040-3) Load crest factor Load power factor
380
400
415
440 V
480 V
IEC: L1, L2, L3, PE 35 UL: L1, L2, L3 + G 36
340-456
340-480
353-498
374-528
408-576
40-70
1601
1519
1463
1370
1266
1771
1702
1638
1534
1456
1780
1664
1520
<3% at 100% load, <4% at 50% load, <9% at 25% load
0.99 at >40% load, 0.98 at >20% load, 0.97 at >10% load
Contactors Adaptive 1-300 seconds
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE 39 UL: L1, L2, L3, G or L1, L2, L3, N, G
342-418
360-440
374-457
396-484
432-528
50 or 60
Programmable: ±0.1, ±3, ±10. Default is ±3
1535
1458
1405
1325
1211
100 kA RMS (conditioned by an internal molded switch with 90 kA peak magnetic trip)
9680 (1250 kW I/O) 16245 (1500 kW I/O)
9165 (1250 kW I/O) 16245 (1500 kW I/O)
39 kA
Molded switch with trip for backfeed protection
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE UL: L1, L2, L3, G, GEC40 or L1, L2, L3, N, G
Normal operation: 150% for 1 minute, 125% for 10 minutes Battery operation: 115% for 1 minute Bypass operation: 110%41 continuous, 1000% for 60 milliseconds for systems with 1250 kW I/O cabinet and 100 milliseconds for systems with 1500 kW I/O cabinet
Balanced load: ±1%, Unbalanced load: ±3%
±5% after 2 ms, ±1% after 50 ms
1
1519
1443
1391
1312
1203
<2% at 100% linear load, <3% at 100% non-linear load
50/60 (synchronized to bypass), 50/60 Hz ±0.1% (free-running)
Programmable: 0.25, 0.5, 1, 2, 4, 6
Double-conversion: VFI-SS-111
Up to 3 (THDU < 5%) 0.7 leading to 0.5 lagging without derating
Output Specifications
35. TN, TT, and IT power distribution systems are supported. 36. WYE source solid grounded and high resistance grounded sources are supported. Corner (line) grounding is not supported. 37. The system can operate at 600 V for 1 minute. 38. At nominal input voltage and full charge. 39. TN, TT, and IT power distribution systems with no earthed line conductors are supported. 40. Per NEC 250.30. 41. 125% for 480 V.
32
990-5451F-001
Facility Planning
Battery Specifications
Voltage (V) Charging power in % of output power
380
400
415
35% at 80% load, 12% at 100% load
440 V
Maximum charging power (kW)
120 at 100% load, 350 at <80% load
Nominal battery voltage (VDC) Nominal float voltage (VDC) End of discharge voltage (full load) (VDC) End of discharge voltage (no load) (VDC) Battery current at full load and nominal battery voltage (A) Battery current at full load and minimum battery voltage (A) Maximum battery backup time Temperature compensation (per cell) Ripple current Battery test Deep discharge protection Recharge according to battery temperature
480 546 384 420 2179
2724
Unlimited -3.3 mV per °C for T 25 °C, 0 mV per °C for T < 25 °C < 5% C20 (5 minutes backup time) Manual/automatic (selectable) Yes Yes
480 V UPS System
480 V 40% at 80% load, 15% at 100% load 150 at 100% load, 400 at <80% load
990-5451F-001
33
480 V UPS System
Specifications for 1100 kW UPS
Facility Planning
Input Specifications
Bypass Specifications
Voltage (V) Connections
Input voltage range (V)44 Frequency (Hz) Nominal input current (A) Maximum input current (A)45 Input current limitation (A) Total harmonic distortion (THDI) Input power factor Protection Ramp-in Connections
Bypass voltage range (V) Frequency (Hz) Frequency range (Hz) Nominal bypass current (A) Maximum short circuit rating Thyristor I²t (kA*s²) BF2 magnetic trip Protection Connections
Overload capacity
Output voltage tolerance Dynamic load response Output power factor Nominal output current (A) Total harmonic distortion (THDU) Output frequency (Hz) Slew rate (Hz/sec) Output performance classification (according to IEC/ EN62040-3) Load crest factor Load power factor
380
400
415
440 V
480 V
IEC: L1, L2, L3, PE 42 UL: L1, L2, L3 + G 43
340-456
340-480
353-498
374-528
408-576
40-70
1761
1671
1609
1510
1393
1948
1872
1802
1691
1602
1958
1830
1672
<3% at 100% load, <4% at 50% load, <9% at 25% load
0.99 at >40% load, 0.98 at >20% load, 0.97 at >10% load
Contactors Adaptive 1-300 seconds
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE 46 UL: L1, L2, L3, G or L1, L2, L3, N, G
342-418
360-440
374-457
396-484
432-528
50 or 60
Programmable: ±0.1, ±3, ±10. Default is ±3
1688
1604
1546
1458
1332
100 kA RMS (conditioned by an internal molded switch with 90 kA peak magnetic trip)
9680 (1250 kW I/O)
9165 (1250 kW I/O)
39 kA
Molded switch with trip for backfeed protection
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE UL: L1, L2, L3, G, GEC47 or L1, L2, L3, N, G
Normal operation: 150% for 1 minute, 125% for 10 minutes Battery operation: 115% for 1 minute Bypass operation: 110%48 continuous, 1000% for 60 milliseconds for systems with 1250 kW I/O cabinet and 100 milliseconds for systems with 1500 kW I/O cabinet
Balanced load: ±1%, Unbalanced load: ±3%
±5% after 2 ms, ±1% after 50 ms
1
1671
1588
1530
1443
1323
<2% at 100% linear load, <3% at 100% non-linear load
50/60 (synchronized to bypass), 50/60 Hz ±0.1% (free-running)
Programmable: 0.25, 0.5, 1, 2, 4, 6
Double-conversion: VFI-SS-111
Up to 3 (THDU < 5%) 0.7 leading to 0.5 lagging without derating
Output Specifications
42. TN, TT, and IT power distribution systems are supported. 43. WYE source solid grounded and high resistance grounded sources are supported. Corner (line) grounding is not supported. 44. The system can operate at 600 V for 1 minute. 45. At nominal input voltage and full charge. 46. TN, TT, and IT power distribution systems with no earthed line conductors are supported. 47. Per NEC 250.30. 48. 125% for 480 V.
34
990-5451F-001
Facility Planning
Battery Specifications
Voltage (V) Charging power in % of output power
380
400
415
35% at 80% load, 12% at 100% load
440 V
Maximum charging power (kW)
132 at 100% load, 385 at <80% load
Nominal battery voltage (VDC) Nominal float voltage (VDC) End of discharge voltage (full load) (VDC) End of discharge voltage (no load) (VDC) Battery current at full load and nominal battery voltage (A) Battery current at full load and minimum battery voltage (A) Maximum battery backup time Temperature compensation (per cell) Ripple current Battery test Deep discharge protection Recharge according to battery temperature
480 546 384 420 2397
2996
Unlimited -3.3 mV per °C for T 25 °C, 0 mV per °C for T < 25 °C < 5% C20 (5 minutes backup time) Manual/automatic (selectable) Yes Yes
480 V UPS System
480 V 40% at 80% load, 15% at 100% load 165 at 100% load, 440 at <80% load
990-5451F-001
35
480 V UPS System
Specifications for 1250 kW UPS
Facility Planning
Input Specifications
Bypass Specifications
Voltage (V) Connections
Input voltage range (V)51 Frequency (Hz) Nominal input current (A) Maximum input current (A)52 Input current limitation (A) Total harmonic distortion (THDI) Input power factor Protection Ramp-in Connections
Bypass voltage range (V) Frequency (Hz) Frequency range (Hz) Nominal bypass current (A) Maximum short circuit rating Thyristor I²t (kA*s²)
BF2 magnetic trip Protection Connections
Overload capacity
Output voltage tolerance Dynamic load response Output power factor Nominal output current (A) Total harmonic distortion (THDU) Output frequency (Hz) Slew rate (Hz/sec) Output performance classification (according to IEC/ EN62040-3) Load crest factor Load power factor
380
400
415
440 V
480 V
IEC: L1, L2, L3, PE 49 UL: L1, L2, L3 + G 50
340-456
340-480
353-498
374-528
408-576
40-70
2001
1899
1828
1716
1583
2214
2127
2048
1922
1820
2225
2080
1900
<3% at 100% load, <4% at 50% load, <9% at 25% load
0.99 at >40% load, 0.98 at >20% load, 0.97 at >10% load
Contactors Adaptive 1-300 seconds
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE 53 UL: L1, L2, L3, G or L1, L2, L3, N, G
342-418
360-440
374-457
396-484
432-528
50 or 60
Programmable: ±0.1, ±3, ±10. Default is ±3
1918
1822
1757
1657
1514
100 kA RMS (conditioned by an internal molded switch with 90 kA peak magnetic trip)
9680 (1250 kW I/O) 16245 (1500 kW I/O)
9165 (1250 kW I/O) 16245 (1500 kW I/O)
39 kA
Molded switch with trip for backfeed protection
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE UL: L1, L2, L3, G, GEC54 or L1, L2, L3, N, G
Normal operation: 150% for 1 minute, 125% for 10 minutes Battery operation: 115% for 1 minute Bypass operation: 110%55 continuous, 1000% for 60 milliseconds for systems with 1250 kW I/O cabinet and 100 milliseconds for systems with 1500 kW I/O cabinet
Balanced load: ±1%, Unbalanced load: ±3%
±5% after 2 ms, ±1% after 50 ms
1
1899
1804
1739
1640
1504
<2% at 100% linear load, <3% at 100% non-linear load
50/60 (synchronized to bypass), 50/60 Hz ±0.1% (free-running)
Programmable: 0.25, 0.5, 1, 2, 4, 6
Double-conversion: VFI-SS-111
Up to 3 (THDU < 5%) 0.7 leading to 0.5 lagging without derating
Output Specifications
49. TN, TT, and IT power distribution systems are supported. 50. WYE source solid grounded and high resistance grounded sources are supported. Corner (line) grounding is not supported. 51. The system can operate at 600 V for 1 minute. 52. At nominal input voltage and full charge. 53. TN, TT, and IT power distribution systems with no earthed line conductors are supported. 54. Per NEC 250.30. 55. 125% for 480 V.
36
990-5451F-001
Facility Planning
Battery Specifications
Voltage (V) Charging power in % of output power
380
400
415
35% at 80% load, 12% at 100% load
440 V
Maximum charging power (kW)
150 at 100% load, 437 at <80% load
Nominal battery voltage (VDC) Nominal float voltage (VDC) End of discharge voltage (full load) (VDC) End of discharge voltage (no load) (VDC) Battery current at full load and nominal battery voltage (A) Battery current at full load and minimum battery voltage (A) Maximum battery backup time Temperature compensation (per cell) Ripple current Battery test Deep discharge protection Recharge according to battery temperature
480 546 384 420 2724
3405
1 hour -3.3 mV per °C for T 25 °C, 0 mV per °C for T < 25 °C < 5% C20 (5 minutes backup time) Manual/automatic (selectable) Yes Yes
480 V UPS System
480 V 40% at 80% load, 15% at 100% load 187.5 at 100% load, 500 at <80% load
990-5451F-001
37
480 V UPS System
Specifications for 1500 kW UPS
Facility Planning
Input Specifications
Bypass Specifications
Voltage (V) Connections
Input voltage range (V)58 Frequency (Hz) Nominal input current (A) Maximum input current (A)59 Input current limitation (A) Total harmonic distortion (THDI) Input power factor Protection Ramp-in Connections
Bypass voltage range (V) Frequency (Hz) Frequency range (Hz) Nominal bypass current (A) Maximum short circuit rating Thyristor I²t (kA*s²) BF2 magnetic trip Protection Connections
Overload capacity
Output voltage tolerance Dynamic load response Output power factor Nominal output current (A) Total harmonic distortion (THDU) Output frequency (Hz) Slew rate (Hz/sec) Output performance classification (according to IEC/ EN62040-3) Load crest factor Load power factor
380
400
415
440 V
480 V
IEC: L1, L2, L3, PE 56 UL: L1, L2, L3 + G 57
340-456
340-480
353-498
374-528
408-576
40-70
2401
2279
2194
2059
1899
2657
2552
2457
2306
2184
2670
2496
2280
<3% at 100% load, <4% at 50% load, <9% at 25% load
0.99 at >40% load, 0.98 at >20% load, 0.97 at >10% load
Contactors Adaptive 1-300 seconds
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE 60 UL: L1, L2, L3, G or L1, L2, L3, N, G
342-418
360-440
374-457
396-484
432-528
50 or 60
Programmable: ±0.1, ±3, ±10. Default is ±3
2302
2187
2108
1988
1817
100 kA RMS (conditioned by an internal molded switch with 90 kA peak magnetic trip)
16245 (1500 kW I/O)
39 kA
Molded switch with trip for backfeed protection
IEC: L1, L2, L3, N, PE or L1, L2, L3, PE UL: L1, L2, L3, G, GEC61 or L1, L2, L3, N, G
150% for 1 minute, 125% for 10 minutes (normal operation) 115% for 1 minute (battery operation) 110% continuous,1000% for 100 milliseconds (bypass operation)
Balanced load: ±1%, Unbalanced load: ±3%
±5% after 2 ms, ±1% after 50 ms
1
2279
2165
2087
1968
1804
<2% at 100% linear load, <3% at 100% non-linear load
50/60 (synchronized to bypass), 50/60 Hz ±0.1% (free-running)
Programmable: 0.25, 0.5, 1, 2, 4, 6
Double-conversion: VFI-SS-111
Up to 3 (THDU < 5%) 0.7 leading to 0.5 lagging without derating
Output Specifications
56. TN, TT, and IT power distribution systems are supported. 57. WYE source solid grounded and high resistance grounded sources are supported. Corner (line) grounding is not supported. 58. The system can operate at 600 V for 1 minute. 59. At nominal input voltage and full charge. 60. TN, TT, and IT power distribution systems with no earthed line conductors are supported. 61. Per NEC 250.30.
38
990-5451F-001
Facility Planning
Battery Specifications
Voltage (V) Charging power in % of output power
380
400
415
35% at 80% load, 12% at 100% load
440 V
Maximum charging power (kW)
525 at < 80% load, 180 at 100% load,
Nominal battery voltage (VDC) Nominal float voltage (VDC) End of discharge voltage (full load) (VDC) End of discharge voltage (no load) (VDC) Battery current at full load and nominal battery voltage (A) Battery current at full load and minimum battery voltage (A) Maximum battery backup time Temperature compensation (per cell) Ripple current Battery test Deep discharge protection Recharge according to battery temperature
480 546 384 420 3269
4086
1 hour -3.3 mV per °C for T 25 °C, 0 mV per °C for T < 25 °C < 5% C20 (5 minutes backup time) Manual/automatic (selectable) Yes Yes
480 V UPS System
480 V 40% at 80% load, 15% at 100% load 600 at <80% load, 225 at 100% load
Recommended Upstream Protection and Cable Sizes UL
CAUTION
HAZARD OF FIRE · Connect only to a circuit with the below specifications. · Connect only to a circuit provided with maximum a 1600 A branch circuit
overcurrent protection in accordance with the National Electrical Code, ANSI/NFPA70, and the Canadian Electrical Code, Part I, C22.1. Failure to follow these instructions can result in injury or equipment damage.
NOTE: Overcurrent protection is to be provided by others. NOTE: All wiring must comply with all applicable national and/or electrical code (National Electrical Code, ANSI/NFPA 70). Cable sizes in this manual are based on Table 310.15 of the National Electrical Code 2014 (NEC) with the following assertions: · 90 °C conductors (THHN) for 75 °C termination · Not more than 3 current carrying conductors in each conduit · An ambient temperature of max. 30 °C · Use of copper or aluminium conductors · 100% rated breakers · Nominal operating conditions If the ambient room temperature is greater than 30 °C, use larger or additional parallel conductors in accordance with the correction factors of the NEC. The maximum allowable conductor size is 600 kcmil.
Equipment Grounding Conductors (EGC) are sized in accordance with NEC Article 250.122 and Table 250.122 Minimum size equipment conductor for grounding equipment.
990-5451F-001
39
480 V UPS System
Facility Planning
NOTE: Always consider the EGC size according to the complete electrical installation.
NOTE: The use of aluminium conductors can limit the number of parallel Li-ion battery cabinets. Please contact Schneider Electric for more information.
Recommended Upstream Protection and Cable Sizes for 500 kW UPS
Maximum OCPD (A)
Input Bypass Output Battery
800 (Ir = 1.0) 700 (Ir = 1.0) 700 (Ir = 1.0) 1600 (Ir = 0.9)
Conductors per Phase Copper / Aluminium (kcmil) 2x500 / 3x400 2x350 / 2x500 2x350 / 2x500 4x500 / 5x500
Equipment Grounding Conductor Copper / Aluminium62 1/0 AWG / 3/0 AWG 1/0 AWG / 3/0 AWG 1/0 AWG / 3/0 AWG 4/0 AWG / 350 kcmil
Recommended Upstream Protection and Cable Sizes for 625 kW UPS
Maximum OCPD (A)
Input Bypass Output Battery
1000 (Ir = 1.0) 800 (Ir= 1.0) 800 (Ir = 1.0) 2000 (Ir = 0.9)
Conductors per Phase Copper/ Aluminium (kcmil) 3x400 / 3x600 2x600 / 3x400 2x600 / 3x400 5x500 / 6x500
Equipment Grounding Conductor Copper/Aluminium62 2/0 AWG / 4/0 AWG 1/0 AWG / 3/0 AWG 1/0 AWG / 3/0 AWG 250 kcmil / 400 kcmil
Recommended Upstream Protection and Cable Sizes for 750 kW UPS
Maximum OCPD (A)
Input Bypass Output Battery
1200 (Ir = 1.0) 1000 (Ir = 1.0) 1000 (Ir = 1.0) 2500 (Ir = 0.9)
Conductors per Phase Copper/ Aluminium (kcmil) 3x600 / 4x500 3x400 / 3x600 3x400 / 3x600 6x500 / 7x600
Equipment Grounding Conductor Copper/Aluminium62 3/0 AWG / 250 kcmil 2/0 AWG / 4/0 AWG 2/0 AWG / 4/0 AWG 350 kcmil / 600 kcmil
Recommended Upstream Protection and Cable Sizes for 800 kW UPS
Maximum OCPD (A)
Input Bypass Output Battery
1600 (Ir = 0.8) 1000 1000 2500 (Ir = 0.9)
Conductors per Phase Copper/ Aluminium (kcmil) 4x400 / 4x600 3x400 / 3x600 3x400 / 3x600 6x500 / 7x600
Equipment Grounding Conductor Copper/Aluminium62 4/0 AWG / 350 kcmil 2/0 AWG / 4/0 AWG 2/0 AWG / 4/0 AWG 350 kcmil / 600 kcmil
62. If the conductors are run in conduits, there must be one conductor in each conduit. 40
990-5451F-001
Facility Planning
480 V UPS System
Recommended Upstream Protection and Cable Sizes for 1000 kW UPS
Maximum OCPD (A)
Input Bypass Output Battery
1600 (Ir = 1.0) 1600 (Ir = 0.8) 1600 (Ir = 0.8) 3000 (Ir = 1.0)
Conductors per Phase Copper/ Aluminium (kcmil) 4x600 / 5x600 4x400 / 4x600 4x400 / 4x600 8x500 / 9x600
Equipment Grounding Conductor Copper/Aluminium63 4/0 AWG / 350 kcmil 4/0 AWG / 350 kcmil 4/0 AWG / 350 kcmil 400 kcmil / 600 kcmil
Recommended Upstream Protection and Cable Sizes for 1100 kW UPS
Maximum OCPD (A)
Input Bypass Output Battery
2000 (Ir = 0.9) 1600 (Ir = 0.9) 1600 (Ir = 0.9) 3000 (Ir = 1.0)
Conductors per Phase Copper/ Aluminium (kcmil) 5x500 / 6x500 4x500 / 5x500 4x500 / 5x500 8x500 / 9x600
Equipment Grounding Conductor Copper/Aluminium63 250 kcmil/ 400 kcmil 4/0 AWG / 350 kcmil 4/0 AWG / 350 kcmil 400 kcmil / 600 kcmil
Recommended Upstream Protection and Cable Sizes for 1250 kW UPS
Maximum OCPD (A)
Input Bypass Output Battery
2000 (Ir = 1.0) 1600 (Ir = 1.0) 1600 (Ir = 1.0) 4000 (Ir = 0.9)
Conductors per Phase Copper/ Aluminium (kcmil) 5x600 / 6x600 4x600 / 5x600 4x600 / 5x600 9x600 / 11x600
Equipment Grounding Conductor Copper/Aluminium63 250 kcmil / 400 kcmil 4/0 AWG / 350 kcmil 4/0 AWG / 350 kcmil 500 kcmil / 750 kcmil
Recommended Upstream Protection and Cable Sizes for 1500 kW UPS
Maximum OCPD (A)
Input
250064
Bypass 200064
Output 200064
Battery 500065
Conductors per Phase Copper/ Aluminium (kcmil)
6x600/ 8x600
5x600/ 6x600
5x600/ 6x600
11x600/ 14x600
Equipment Grounding Conductor Copper/Aluminium63
350 kcmil/ 400 kcmil
250 kcmil/ 350 kcmil
250 kcmil/ 350
700 kcmil/
Recommended Bolt and Lug Sizes for Copper Cables
Cable Size 1/0 AWG 2/0 AWG 3/0 AWG
Terminal Bolt Diameter M12 x 35 mm M12 x 35 mm M12 x 35 mm
Cable Lug Type LCCF1/012X LCCF2/012X LCCF3/012X
Crimping Tool CT930 CT930 CT930
Die CD-9202/0 Black P45 CD-9203/0 Orange P50 CD-9204/0 Purple P54
63. If the conductors are run in conduits, there must be one conductor in each conduit. 64. Long-time setting (Ir) = 1.0 65. Long-time setting (Ir) = 0.9
990-5451F-001
41
480 V UPS System
Cable Size 250 kcmil 300 kcmil 400 kcmil 500 kcmil 600 kcmil
Terminal Bolt Diameter M12 x 35 mm M12 x 35 mm M12 x 35 mm M12 x 35 mm M12 x 40 mm
Cable Lug Type LCCF25012X LCCF300126 LCCF400126 LCCF500126 LCCF600126
Crimping Tool CT-940CH/CT-2940 CT-940CH/CT-2940 CT-940CH/CT-2940 CT-940CH/CT-2940 CT-940CH/CT-2940
Facility Planning
Die CD-920300 White P66 CD-920350 Red P71 CD-920500 Brown P87 CD-920500A Pink P99 CD-920750 Black P106
Recommended Bolt and Lug Sizes for Aluminium Cables
Cable Size 2/0 AWG 3/0 AWG 250 kcmil 300 kcmil 400 kcmil 500 kcmil 600 kcmil
Terminal Bolt Diameter M12 x 40 mm M12 x 40 mm M12 x 40 mm M12 x 40 mm M12 x 40 mm M12 x 40 mm M12 x 40 mm
Cable Lug Type LAB2/0-12-5 LAB3/0-12-5 LAB250-12-5 LAB300-12-2 LAB400-12-2 LAB500-12-2 LAB600-12-2
Crimping Tool CT930 CT930 CT930 CT930 CT930 CT930 CT930
Die Olive P54 Ruby P60 Red P71 Blue P76 Green P94 Pink P99 Black P106
Weights and Dimensions
Weights and Dimensions for UPSs with 1250 kW I/O Cabinet
Commercial Reference
· GVX500K500NGS · GVX500K750NGS · GVX500K1000NGS · GVX500K1250NGS
· GVX625K625NGS · GVX625K1000NGS · GVX750K500NGS · GVX750K750NGS · GVX750K1000NGS · GVX750K1250NGS
· GVX800K800NGS · GVX1000K750NGS · GVX1000K1000NGS · GVX1000K1250NGS
· GVX1100K1100NGS · GVX1250K1000NGS · GVX1250K1250NGS
· GVX1500K1100NGS · GVX1500K1250NGS
Parts
Total Power cabinets I/O cabinet
Weight kg (lbs)
2030 (4475) 2x540 (2x1190) 950 (2094)
Total Power cabinets I/O cabinet
2570 (5666) 3x540 (3x1190) 950 (2094)
Total Power cabinets I/O cabinet
3110 (6856) 4x540 (4x1190) 950 (2094)
Total Power cabinets I/O cabinet
3650 (8047) 5x540 (5x1190) 950 (2094)
Total Power cabinets I/O cabinet
4190 (9237) 6x540 (6x1190) 950 (2094)
Height mm (in) 1970 (77.6) 1970 (77.6)
1970 (77.6) 1970 (77.6) 1970 (77.6)
Width mm (in) 2400 (94.5) 2x600 (2x23.6) 1200 (47.2)
3000 (118.1) 3x600 (3x23.6) 1200 (47.2)
3600 (141.7) 4x600 (4x23.6) 1200 (47.2)
4200 (165.4) 5x600 (5x23.6) 1200 (47.2)
4800 (189.0) 6x600 (6x23.6) 1200 (47.2)
Depth mm (in) 900 (35.4) 900 (35.4)
900 (35.4) 900 (35.4) 900 (35.4)
42
990-5451F-001
Facility Planning
480 V UPS System
Weights and Dimensions for UPSs with 1500 kW I/O Cabinet
Part Number · GVX500K1500GS · GVX750K1500GS · GVX1000K1500GS · GVX1250K1500GS · GVX1500K1500GS · GVX1750K1500GS
Parts
In total Power cabinets I/O cabinet
In total Power cabinets I/O cabinet
In total Power cabinets I/O cabinet
In total Power cabinets I/O cabinet
In total Power cabinets I/O cabinet
In total Power cabinets I/O cabinet
Weight kg (lbs)
1956 (4312) 2x540 (2x1190) 876 (1931)
2496 (5503) 3x540 (3x1190) 876 (1931)
3036 (6693) 4x540 (4x1190) 876 (1931)
3576 (7884) 5x540 (5x1190) 876 (1931)
4116 (9074) 6x540 (6x1190) 876 (1931)
4656 (10265) 7x540 (7x1190) 876 (1931)
Height mm (in) 1970 (77.6) 1970 (77.6) 1970 (77.6) 1970 (77.6) 1970 (77.6) 1970 (77.6)
Width mm (in)
3200 (126.0) 2x600 (2x23.6) 2000 (78.7)
3800 (149.6) 3x600 (3x23.6) 2000 (78.7)
4400 (173.2) 4x600 (4x23.6) 2000 (78.7)
5000 (196.9) 5x600 (5x23.6) 2000 (78.7)
5600 (220.5) 6x600 (6x23.6) 2000 (78.7)
6200 (244.1) 7x600 (7x23.6) 2000 (78.7)
Depth mm (in) 900 (35.4) 900 (35.4) 900 (35.4) 900 (35.4) 900 (35.4) 900 (35.4)
Maintenance Bypass Cabinet Weights and Dimensions
Part Number GVXMBCR625KG GVXMBCR750KG
Weight kg (lbs) 280 (617) 280 (617)
Height mm (in) 1970 (77.6) 1970 (77.6)
Width mm (in) 800 (31.5) 800 (31.5)
Depth mm (in) 900 (35.4) 900 (35.4)
Clearance
Clearance for UPSs with 1250 kW I/O Cabinet
NOTE: Clearance dimensions are published for airflow and service access only. Consult with the local safety codes and standards for additional requirements in your local area. NOTE: The UPS system can be placed up against a wall and there is no requirement for rear or side access.
990-5451F-001
43
480 V UPS System
Facility Planning
Clearance for UPSs with 1500 kW I/O Cabinet
NOTE: Clearance dimensions are published for airflow and service access only. Consult with the local safety codes and standards for additional requirements in your local area.
NOTE: The UPS system can be placed up against a wall with no requirement for rear or side access.
Front View
Guidance for Organizing Battery Cables
NOTE: For 3rd party batteries, use only high rate batteries for UPS applications. NOTE: When the battery bank is placed remotely, the organizing of the cables is important to reduce voltage drop and inductance. The distance between the battery bank and the UPS must not exceed 200 m (656 ft). Contact Schneider Electric for installations with a longer distance. NOTE: To minimize the risk of electromagnetic radiation, it is highly recommended to follow the below guidance and to use grounded metallic tray supports.
Cable Length
<30 m 3175 m 76150 m 151200 m
Not recommended Not recommended Not recommended Not recommended
Acceptable Not recommended Not recommended Not recommended
Recommended Acceptable Acceptable Not recommended
Recommended Recommended Recommended Recommended
44
990-5451F-001
Facility Planning
Environment
Temperature
Operating
0 °C to 40 °C (32 °F to 104 °F)
0 °C to 50 °C (32 °F to 122 °F) when derated to 75% power66
Relative humidity
0 95% non-condensing
Altitude derating according to ANSI C57.96 1999
1000 m (3300 ft): 1.000 1500 m (5000 ft): 0.975 2000 m (6600 ft): 0.950 2500 m (8300 ft): 0.925 3000 m (10000 ft): 0.900
Audible noise one meter (three feet) from surface
Protection class Color
62 dB at 70% load 68 dB at 100% load IP20 RAL 9003 white
480 V UPS System
Storage -15 °C to 40 °C (5 °F to 104 °F) for systems with batteries -25 °C to 55 °C (-13 °F to 131 °F) for systems without batteries 0 95% non-condensing 0 15000 m (0 50000 ft)
Heat Dissipation (BTU/hr) for UPSs with 1250 kW I/O Cabinet
Heat Dissipation for 500 kW UPS
Normal operation
Voltage (V) 380
400
25% load 50% load 75% load 100% load
17771 34617 56095 78519
21504 38327 58889 80387
415 21504 38327 58889 78519
440 V 21504 37397 56095 75723
480 V 22920 36468 53313 72936
ECO mode
380
400
11385 8616 12924 13758
16847 11235 15540 17232
415 16387 10360 15540 17232
440 V 14099 12112 15540 17232
480 V 11835 13870 15540 17232
ECOnversion
Voltage (V) 380
400
25% load 50% load 75% load 100% load
4308 13870 12924 17232
7376 12990 14231 13758
415 6935 16521 14231 13758
440 V 10264 16078 15540 16362
480 V 13644 15635 16853 18975
Battery operation
380
400
14555 29110 75903 71083
15469 29110 47782 74793
415 15011 30938 49160 80387
440 V 15011 30938 49160 80387
480 V 15011 29110 49160 72936
Heat Dissipation for 625 kW UPS
Normal operation
Voltage (V) 380
400
25% load 50% load 75% load 100% load
27469 47909 73611 114602
26880 47909 73611 100484
415 26880 47909 73611 98149
440 V 26880 45006 67509 91170
480 V 28059 42118 61451 84236
ECO mode
380
400
10880 11859 16155 23718
13110 14044 19426 25901
415 13670 15139 19426 25901
440 V 13670 15139 19426 23718
480 V 13670 15139 19426 21540
66. For temperatures between 40 °C and 50 °C , derate the load power rating with 2.5% per °C
990-5451F-001
45
480 V UPS System
Facility Planning
ECOnversion
Voltage (V) 380
400
25% load 15922
15922
50% load 75% load
17337 21066
17337 21066
100% load 25901
25901
415 10880 17337 21066 25901
440 V 13390 17337 21066 24809
480 V 15922 17337 21066 23718
Battery operation
380
400
17056 40967 61451 86543
17056 39818 61451 84236
415 18764 38672 61451 100484
440 V 18764 38672 61451 100484
480 V 18764 36387 61451 91170
Heat Dissipation for 750 kW UPS
Normal operation
Voltage (V) 380
400
25% load 50% load 75% load 100% load
28745 56095 94653 146074
30847 56095 92542 137523
415 30847 54702 86236 129025
440 V 30847 53313 83097 120581
480 V 30847 51926 79969 112190
ECO mode
380
400
10402 14231 19386 25848
13056 16853 23311 28462
415 13723 18167 23311 28462
440 V 13723 18167 23311 28462
480 V 13723 18167 23311 28462
ECOnversion
Voltage (V) 380
400
25% load 15061
15061
50% load 19485
19485
75% load 25279
25279
100% load 31081
31081
415 9084 19485 25279 31081
440 V 12058 19485 25279 29771
480 V 15061 19485 25279 28462
Battery operation
380
400
21832
21832
45034
43664
77888
75812
114981 112190
415 22517 45034 75812 112190
440 V 22517 45034 75812 112190
480 V 23203 45034 75812 112190
Heat Dissipation for 800 kW UPS
Normal operation
Voltage (V) 380
400
25% load 50% load 75% load 100% load
35160 59835 91985 131616
35160 58349 89752 128620
415 34407 56867 85300 119669
440 V 34407 55387 84190 112253
480 V 34407 53911 83081 104876
ECO mode
380
400
15351 19378 22770 30360
15351 19378 22770 27572
415 8988 15180 22770 27572
440 V 8988 15180 22770 27572
480 V 8988 15180 22770 27572
ECOnversion
Voltage (V) 380
400
25% load 50% load 75% load 100% load
17497 20784 24865 30360
18216 20784 24865 30360
415 17497 20784 24865 27572
440 V 17857 20784 24865 26180
480 V 18216 20784 24865 24790
Battery operation
380
400
26956 50968 78657 113733
21831 43662 65493 101935
415 21105 48036 67676 104876
440 V 21105 48036 67676 104876
480 V 7590 48036 67676 104876
Heat Dissipation for 1000 kW UPS
Normal operation
Voltage (V) 380
400
25% load 36468
39259
50% load 75% load 100% load
71083 120581 187156
71083 117778 175802
415 39259 69234 109405 164520
440 V 39259 69234 109405 164520
480 V 39259 65547 101083 142167
ECO mode
380
400
12112
15635
15493
18975
20637
25848
27516
30987
415 16521 20721 25848 30987
440 V 16521 20721 25848 30987
480 V 16521 20721 25848 30987
46
990-5451F-001
Facility Planning
480 V UPS System
ECOnversion
Voltage (V) 380
400
25% load 18297
18297
50% load 75% load
22470 28462
22470 28462
100% load 34465
34465
415 10360 22470 28462 34465
440 V 14311 22470 28462 32725
480 V 18297 22470 28462 30987
Battery operation
380
400
28198 58219 101083 149587
28198 56397 98321 145873
415 29110 58219 98321 145873
440 V 29110 58219 98321 145873
480 V 30023 58219 98321 145873
Heat Dissipation for 1100 kW UPS
Normal operation
Voltage (V) 380
400
25% load 50% load 75% load 100% load
43185 82273 132639 201700
43185 78192 123409 185100
415 42160 76158 120345 180972
440 V 43185 76158 120345 180972
480 V 41136 70080 108153 152315
ECO mode
380
400
18173 22793 28433 37911
17199 22793 25564 37911
415 17199 22793 25564 37911
440 V 16713 21832 26998 35997
480 V 16227 20872 28433 34086
ECOnversion
Voltage (V) 380
400
25% load 21107
21107
50% load 24717
22793
75% load 34189
34189
100% load 53291
41744
415 20127 24717 34189 41744
440 V 18173 22793 28433 34086
480 V 21107 24717 31308 37911
Battery operation
380
400
35040
37064
66050
66050
163830 102095
156383 164545
415 36051 70080 105121 176852
440 V 32021 64041 108153 160460
480 V 36051 68063 105121 152315
Heat Dissipation for 1250 kW UPS
Normal operation
Voltage (V) 380
400
25% load 50% load 75% load 100% load
49074 93492 154237 233945
49074 88854 143726 215042
415 47909 86543 140237 210341
440 V 47909 83084 133281 193965
480 V 46746 79637 126354 177708
ECO mode
380
400
20651 25901 35578 43081
19544 25901 32311 43081
415 19544 25901 32311 43081
440 V 18992 24809 30680 40906
480 V 18440 23718 29050 38734
ECOnversion
Voltage (V) 380
400
25% load 50% load 75% load 100% load
22872 28088 35578 56175
22872 25901 35578 43081
415 21760 28088 35578 43081
440 V 22316 28088 33943 40906
480 V 22872 28088 32311 38734
Battery operation
380
400
36387 72774 119455 177708
38672 72774 119455 186983
415 37528 77345 122901 200969
440 V 37528 77345 122901 200969
480 V 37528 75057 122901 173085
990-5451F-001
47
480 V UPS System
Facility Planning
Heat Dissipation (BTU/hr) for UPSs with 1500 kW I/O Cabinet
Heat Dissipation for 500 kW UPS
Normal operation
Voltage (V) 380
400
25% load 50% load 75% load 100% load
17309 32774 53313 86017
16387 30938 50542 82260
415 16387 30938 50542 82260
440 V 16387 31396 50542 75723
480 V 18698 31855 50542 69234
ECO mode
380
400
5618 7747 11620 13758
5618 7747 11620 13758
415 5618 7747 11620 13758
440 V 6056 7747 10969 13758
480 V 6495 7747 10319 13758
ECOnversion
Voltage (V) 380
400
25% load 50% load 75% load 100% load
6495 7747 11620 15493
6495 7747 11620 13758
415 6495 7747 11620 13758
440 V 7155 7747 10969 13758
480 V 7818 7747 10319 13758
Battery operation
380
400
18234 31855 53313 78519
18234 31855 53313 78519
415 18234 31855 53313 78519
440 V 18234 31855 53313 78519
480 V 18234 31855 53313 78519
Heat Dissipation for 750 kW UPS
Normal operation
Voltage (V) 380
400
25% load 50% load 75% load 100% load
26656 51926 86236 134684
25271 49160 82053 129025
415 25271 49160 82053 129025
440 V 25271 47782 77888 117778
480 V 27351 46407 73741 106625
ECO mode
380
400
9084 12924 17430 23240
9084 12924 17430 23240
415 9084 12924 17430 23240
440 V 9413 12272 16453 21938
480 V 9742 11620 15478 20637
ECOnversion
Voltage (V) 380
400
25% load 50% load 75% load 100% load
9742 12924 17430 23240
9742 12924 17430 23240
415 9742 12924 17430 23240
440 V 10733 12924 16453 21938
480 V 11727 12924 15478 20637
Battery operation
380
400
27351 47782 79969 117778
27351 47782 79969 117778
415 27351 47782 79969 117778
440 V 27351 47782 79969 117778
480 V 27351 47782 79969 117778
Heat Dissipation for 1000 kW UPS
Normal operation
Voltage (V) 380
400
25% load 50% load 75% load 100% load
36468 71083 123390 187156
34617 67389 117778 179579
415 34617 67389 117778 179579
440 V 33888 60137 98514 149141
480 V 36468 61876 95564 145873
ECO mode
380
400
12112 17232 23240 30987
12112 17232 23240 30987
415 12112 17232 23240 30987
440 V 12112 16362 21938 29251
480 V 12112 15493 20637 27516
48
990-5451F-001
Facility Planning
480 V UPS System
ECOnversion
Voltage (V) 380
400
25% load 13334
13334
50% load 75% load
17254 24358
17254 24358
100% load 31342
31342
415 13334 17254 24358 31342
440 V 14313 16956 22496 29428
480 V 15294 16657 20637 27516
Battery operation
380
400
36468 63710 106625 157038
35819 62976 104128 156664
415 36468 63710 106625 157038
440 V 36468 63710 106625 157038
480 V 36468 63710 106625 157038
Heat Dissipation for 1250 kW UPS
Normal operation
Voltage (V) 380
400
25% load 50% load 75% load 100% load
44427 86543 147223 224474
42118 81934 140237 215042
415 42118 81934 140237 215042
440 V 42118 78490 129814 196297
480 V 44427 75057 119455 177708
ECO mode
380
400
12950 19367 25796 30065
12950 19367 25796 30065
415 12950 19367 25796 30065
440 V 13497 18282 24172 30065
480 V 14044 17198 22549 30065
ECOnversion
Voltage (V) 380
400
25% load 15569
15569
50% load 19394
19394
75% load 27191
27191
100% load 34838
34838
415 15569 19394 27191 34838
440 V 17156 19721 25681 32451
480 V 18748 20047 24172 30065
Battery operation
380
400
45585
45585
79637
79637
133281 133281
196297 196297
415 45585 79637 133281 196297
440 V 45585 79637 133281 196297
480 V 45585 79637 133281 196297
Heat Dissipation for 1500 kW UPS
Normal operation
Voltage 380
400
(V)
25% load 53313 50% load 103851
50542 98321
75% load
100% load
176667 269368
168285 258050
415
50542 98321 168285 258050
440 V
50680 91275 151832 234549
480 V
53313 92813 147481 213250
ECO mode
380
400
15540 23240 30956 36079
15540 23240 30956 36079
415
15540 23240 30956 36079
440 V
16131 21626 28889 37428
480 V
16853 23240 27059 36079
ECOnversion
Voltage 380
400
(V)
25% load 18683
18683
50% load 23273
23273
75% load
100% load
32629 41806
32629 41806
415
18683 23273 32629 41806
440 V
17234 20325 26436 35819
480 V
22054 23129 27059 36079
Battery operation
380
400
415
440 V
480 V
54702 95564 159938 235556
51372 95014 159521 236677
54702 95564 159938 235556
54702 95564 159938 235556
54285 96666 154530 229962
990-5451F-001
49
480 V UPS System
Options
Options
Hardware Options
· Remote maintenance bypass cabinet for UPSs up to 750 kW · Standard top cable entry battery cabinets or custom front terminal battery
cabinets · Optional remote 10inch LCD · Optional Modbus RS-485 card
Configuration Options
· Single or dual feed · Default top or bottom cable entry · N+1 redundancy · Up to 4+1 UPSs in parallel · ECO mode · ECOnversion mode · Generator compatible · Internal synchronization to alternate source (single system) · Seismic rated brackets included · Touchscreen LCD
50
990-5451F-001
Limited Factory Warranty
Limited Factory Warranty
480 V UPS System
One-Year Factory Warranty
The limited warranty provided by Schneider Electric in this Statement of Limited Factory Warranty applies only to products you purchase for your commercial or industrial use in the ordinary course of your business.
Terms of Warranty
Schneider Electric warrants that the product shall be free from defects in materials and workmanship for a period of one year from the date of product start-up when start-up is performed by Schneider Electric-authorized service personnel and occurs within six months of the Schneider Electric shipment date. This warranty covers repairing or replacing any defective parts including on-site labor and travel. In the event that the product fails to meet the foregoing warranty criteria, the warranty covers repairing or replacing defective parts at the sole discretion of Schneider Electric for a period of one year from the shipment date. For Schneider Electric cooling solutions, this warranty does not cover circuit breaker resetting, loss of refrigerant, consumables, or preventive maintenance items. Repair or replacement of a defective product or part thereof does not extend the original warranty period. Any parts furnished under this warranty may be new or factoryremanufactured.
Non-transferable Warranty
This warranty is extended to the first person, firm, association or corporation (herein referred to by "You" or "Your") for whom the Schneider Electric product specified herein has been purchased. This warranty is not transferable or assignable without the prior written permission of Schneider Electric.
Assignment of Warranties
Schneider Electric will assign you any warranties which are made by manufacturers and suppliers of components of the Schneider Electric product and which are assignable. Any such warranties are assigned "AS IS" and Schneider Electric makes no representation as to the effectiveness or extent of such warranties, assumes no responsibility for any matters which may be warranted by such manufacturers or suppliers and extends no coverage under this Warranty to such components.
Drawings, Descriptions
Schneider Electric warrants for the warranty period and on the terms of the warranty set forth herein that the Schneider Electric product will substantially conform to the descriptions contained in the Schneider Electric Official Published Specifications or any of the drawings certified and agreed to by contract with Schneider Electric if applicable thereto ("Specifications"). It is understood that the Specifications are not warranties of performance and not warranties of fitness for a particular purpose.
990-5451F-001
51
480 V UPS System
Exclusions
Limited Factory Warranty
Schneider Electric shall not be liable under the warranty if its testing and examination disclose that the alleged defect in the product does not exist or was caused by end user or any third person misuse, negligence, improper installation or testing. Further, Schneider Electric shall not be liable under the warranty for unauthorized attempts to repair or modify wrong or inadequate electrical voltage or connection, inappropriate on-site operation conditions, corrosive atmosphere, repair, installation, start-up by non-Schneider Electric designated personnel, a change in location or operating use, exposure to the elements, Acts of God, fire, theft, or installation contrary to Schneider Electric recommendations or specifications or in any event if the Schneider Electric serial number has been altered, defaced, or removed, or any other cause beyond the range of the intended use.
THERE ARE NO WARRANTIES, EXPRESS OR IMPLIED, BY OPERATION OF LAW OR OTHERWISE, OF PRODUCTS SOLD, SERVICED OR FURNISHED UNDER THIS AGREEMENT OR IN CONNECTION HEREWITH. SCHNEIDER ELECTRIC DISCLAIMS ALL IMPLIED WARRANTIES OF MERCHANTABILITY, SATISFACTION AND FITNESS FOR A PARTICULAR PURPOSE. SCHNEIDER ELECTRIC EXPRESS WARRANTIES WILL NOT BE ENLARGED, DIMINISHED, OR AFFECTED BY AND NO OBLIGATION OR LIABILITY WILL ARISE OUT OF, SCHNEIDER ELECTRIC RENDERING OF TECHNICAL OR OTHER ADVICE OR SERVICE IN CONNECTION WITH THE PRODUCTS. THE FOREGOING WARRANTIES AND REMEDIES ARE EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES AND REMEDIES. THE WARRANTIES SET FORTH ABOVE CONSTITUTE SCHNEIDER ELECTRIC SOLE LIABILITY AND PURCHASER'S EXCLUSIVE REMEDY FOR ANY BREACH OF SUCH WARRANTIES. SCHNEIDER ELECTRIC WARRANTIES RUN ONLY TO PURCHASER AND ARE NOT EXTENDED TO ANY THIRD PARTIES.
IN NO EVENT SHALL SCHNEIDER ELECTRIC, ITS OFFICERS, DIRECTORS, AFFILIATES OR EMPLOYEES BE LIABLE FOR ANY FORM OF INDIRECT, SPECIAL, CONSEQUENTIAL OR PUNITIVE DAMAGES, ARISING OUT OF THE USE, SERVICE OR INSTALLATION, OF THE PRODUCTS, WHETHER SUCH DAMAGES ARISE IN CONTRACT OR TORT, IRRESPECTIVE OF FAULT, NEGLIGENCE OR STRICT LIABILITY OR WHETHER SCHNEIDER ELECTRIC HAS BEEN ADVISED IN ADVANCE OF THE POSSIBILITY OF SUCH DAMAGES, SPECIFICALLY, SCHNEIDER ELECTRIC IS NOT LIABLE FOR ANY COSTS, SUCH AS LOST PROFITS OR REVENUE, LOSS OF EQUIPMENT, LOSS OF USE OF EQUIPMENT, LOSS OF SOFTWARE, LOSS OF DATA, COSTS OF SUBSTITUANTS, CLAIMS BY THIRD PARTIES, OR OTHERWISE.
NO SALESMAN, EMPLOYEE OR AGENT OF SCHNEIDER ELECTRIC IS AUTHORIZED TO ADD TO OR VARY THE TERMS OF THIS WARRANTY. WARRANTY TERMS MAY BE MODIFIED, IF AT ALL, ONLY IN WRITING SIGNED BY AN SCHNEIDER ELECTRIC OFFICER AND LEGAL DEPARTMENT.
Warranty Claims
Customers with warranty claims issues may access the SCHNEIDER ELECTRIC worldwide customer support network through the SCHNEIDER ELECTRIC web site: http://www.schneider-electric.com. Select your country from the country selection pull-down menu. Open the Support tab at the top of the web page to obtain contact information for customer support in your region.
52
990-5451F-001
Schneider Electric 35 rue Joseph Monier 92500 Rueil Malmaison France + 33 (0) 1 41 29 70 00
*990-5451F-001*
As standards, specifications, and design change from time to time, please ask for confirmation of the information given in this publication.
© 2016 2020 Schneider Electric. All rights reserved. 990-5451F-001
Servigistics Arbortext Publishing Engine PDFlib PDI 9.0.7p3 (C /Win64)
