- Industrial & lab equipment
- Electrical equipment & supplies
- Power conditioning
- Uninterruptible power supplies (UPSs)
- User manual
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Section-1
1.6.1.2 Single Input Feed
To achieve correct Input Cabling see Drawing
See Section 2, chapter 2.1.2
For single input feed connect the mains input cable to UPS Terminal Block according to the following table:
MAINS INPUT CABLE
Phase L1
Phase L2
Phase L3
NEUTRAL
EARTH
UPS TERMINAL
1L1
1L2
1L3
1N
PE
For minimum recommended Input Cable Sections and Fuse Ratings
See Section 2, chapter 2.1.2
Under the connection terminal of the UPS there is a cable-fixing rail to ensure that the cables have been fastened properly.
1.6.1.3 Dual Input Feed
To achieve correct input cabling see Terminal Block in
See Section 2, chapter 2.1.2
NOTE: The UPS is supplied (as standard version) with facilities for a single cable feed (for rectifier and bypass).
If dual feed is required unscrew the terminal bridges between (L1,L2,L3, only)
UPS TERMINAL
Rectifier
UPS TERMINAL
Bypass
1L1
1L2
1L3
1N
PE
2L1
2L2
2L3
2N
For dual input feed connect the mains input cables to UPS Terminal according to following tables:
MAINS INPUT CABLE UPS TERMINAL
Rectifier
Phase L1
Phase L2
Phase L3
NEUTRAL
EARTH
1L1
1L2
1L3
1N
PE
BYPASS INPUT CABLE UPS TERMINAL
Phase L1
Phase L2
Phase L3
NEUTRAL
Bypass
2L1
2L2
2L3
2N
For minimum recommended Input Cable Sections and Fuse Ratings see
Section 2, chapter 2.1.2
Under the connection terminal of the UPS there is a cable-fixing rail to ensure that the cables have been fastened properly.
1.6.1.4 Preparation for the Output Cabling
Before you start connecting the loads, ensure that the sum of the indicated UPS-module rated powers (OUTPUT
POWER) on the nameplates (on the front side of the UPS-modules) is equal to or larger than the total load requirements.
The output of the UPS must be fitted with circuit breakers or other kind of protection. These circuit breakers will be connected between the loads and the UPS and will provide additional protection to the UPS in the event of overloads and short circuits.
These circuit breakers will enable the protection of each load separately.
The size of the circuit breakers depends on the load rating of the load sockets.
The circuit breakers must comply with the prescribed IEC Standards. It is recommended to provide a separate output distribution board for the load.
04-3006_S1_OPM_ABB_DPA_UPSCALE_RI_10-80kW_EN_150316.doc
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Table of contents
- 10 MECHANICAL CHARACTERISTICS DPA UPSCALE RI
- 12 SAFETY INSTRUCTIONS
- 12 GENERAL SAFETY INTRODUCTION
- 12 SYMBOLS, CONTROLS, AND INDICATORS
- 13 OPERATOR PRECAUTIONS
- 14 ENVIRONMENTAL CONSIDERATIONS
- 14 DECLARATION OF SAFETY CONFORMITY AND CE MARKING
- 14 INQUIRIES
- 15 SYSTEM DESCRIPTION
- 15 GENERAL SYSTEM DESCRIPTION
- 15 Feature : Unique “Safe-Swappable” Modules
- 15 Feature : Advanced-Booster Technology
- 16 Feature : Flexible Battery Management (FBM)
- 16 Feature : DPA Technology - Decentralized Parallel Architecture
- 17 DPA UPSCALE™ RI BASIC SYSTEM CONFIGURATION
- 17 QUALITY STANDARDS AND UPS CLASSIFICATION CODE
- 18 SINGLE/PARALLEL-MODULES OPERATION
- 19 DELIVERY - TRANSPORT - STORAGE
- 19 INTRODUCTION
- 19 RECEIPT OF THE UPS AND VISUAL INSPECTION
- 20 UNPACKING
- 21 NAMEPLATE AND IDENTIFICATION
- 21 BATTERIES AND STORAGE
- 22 Storage of battery
- 22 Storage of UPS
- 23 SITE PLANNING AND POSITIONING
- 23 PLANNING BEFORE THE INSTALLATION
- 23 POSITIONING OF UPS AND BATTERY CABINET
- 23 Final Transport
- 24 Positioning
- 25 ASSEMBLING INSTRUCTIONS
- 25 Table of Weight
- 26 Mechanical Drawing, Assembling and accessories DPA UPScale RI
- 54 Air cooling flow DPA UPScale RI
- 56 ELECTRICAL INSTALLATION
- 57 PREPARATION FOR THE INPUT CABLING
- 57 Mains supply and Earth connection
- 58 Single Input Feed
- 58 Dual Input Feed
- 58 Preparation for the Output Cabling
- 59 Connection of the Load
- 60 INSTALLATION CHECKLIST
- 62 BLOCK DIAGRAM
- 62 WIRING AND BLOCK DIAGRAMS FOR ALL FRAMES AND MODULES
- 62 RECOMMENDED CABLE SECTIONS & FUSE RATINGS
- 62 Terminal connections overview
- 63 Single Feed input (Standard Version)
- 63 SINGLE FEED INPUT / Cable Sections
- 64 Dual feed input (Optional Version)
- 64 Dual FEED INPUT / Cable Sections
- 65 FRONT VIEW
- 65 FRONT VIEW OF DPA UPScale RI 10 AND CONNECTION TERMINALS
- 66 FRONT VIEW OF DPA UPScale RI 11 AND CONNECTION TERMINALS
- 67 FRONT VIEW OF DPA UPScale RI 12 AND CONNECTION TERMINALS
- 68 FRONT VIEW OF DPA UPScale RI 20 AND CONNECTION TERMINALS
- 69 FRONT VIEW OF DPA UPScale RI 22 AND CONNECTION TERMINALS
- 70 FRONT VIEW OF DPA UPScale RI 24 AND CONNECTION TERMINALS
- 71 FRONT VIEW OF DPA UPScale RI 40 AND CONNECTION TERMINALS
- 72 BATTERY CONNECTIONS
- 72 INTERNAL BATTERY MODULES
- 74 EXTERNAL BATTERY CABINET AND BATTERY (NOT FORSEEN)
- 79 INTERFACING
- 80 Customer interface and DRY PORTs (volt-free contacts)
- 80 Output Interfaces Terminal blocks X2 (DRY PORTs)
- 80 Input Interfaces Terminal blocks X
- 81 JD1 / RS232 Smart Port Computer Interface
- 81 USB Computer Interface
- 83 OPERATION
- 83 Commissioning
- 83 Control Panel
- 83 Power Management Display (PMD)
- 84 LED Indicators
- 84 ON/OFF Start-up and Shutdown Buttons
- 85 Description of the LCD
- 85 Status Screens
- 85 Main Menu Screen
- 86 Event Log Screen
- 86 Measurements Screen
- 86 Commands Screen
- 87 UPS Data
- 87 Set-Up User
- 87 Set-Up Service
- 88 Operating Modes
- 88 Mode "ON LINE" (INVERTER MODE)
- 88 Mode"OFF-LINE"(ECO- or BYPASS MODE)
- 89 "MAINTENANCE BYPASS" - Mode
- 91 OPERATION - PROCEDURES
- 91 Start-Up Procedure
- 93 Shutdown Procedure
- 94 Load Transfer: from Inverter operation to Maintenance Bypass
- 95 Load Transfer: from Maintenance Bypass to Inverter operations
- 96 REPLACEMENT OF UPS-MODULE
- 96 Replacement of UPS-Module in Single-Module Systems
- 96 How to Extract a UPS-Module in SINGLE MODULE Systems
- 97 How to Fit Back a UPS-Module in SINGLE-MODULE-Systems
- 99 Replacement of UPS-Module in Redundant Multi-Module System
- 99 How to Extract a Module in Redundant Multi-Module System
- 99 How to insert a module in a Redundant Multi Module System
- 101 Replacement of a Module in Capacity Multi-Module System
- 101 How to Extract a Module in a Capacity Multi-Module System
- 102 How to Fit Back a Module in a Capacity Multi-Module System
- 107 MAINTENANCE
- 107 User Responsibilities
- 107 Preventative Maintenance
- 107 Deep Battery Test
- 108 Battery maintenance, disposal and recycling
- 113 OPTIONS
- 113 Introduction
- 113 Remote SHUT DOWN
- 114 Generator ON Facilities
- 114 Wavemon Shutdown and ManagementSoftware
- 114 Why is UPS Management important?
- 114 WAVEMON Shutdown and Monitoring Software
- 116 SNMP CARD/ADAPTER For Network Management /Remote Monitoring
- 120 DPA UPScale RI SYSTEM DESCRIPTION
- 121 TECHNICAL CHARACTERISTICS DPA UPScale RI
- 121 MECHANICAL CHARACTERISTICS DPA UPScale RI (Rack Independent) Subracks
- 123 INPUT CHARACTERISTICS
- 123 BATTERY CHARACTERISTICS
- 124 OUTPUT CHARACTERISTICS
- 124 – AC EFFICIENCY with Linier load @ cosphi
- 125 GRAPH: Output Power in KW and KVA VERSUS cosphi
- 126 ENVIRONMENTAL CHARACTERISTICS
- 126 STANDARDS
- 127 COMMUNICATION
- 127 POWER MANAGEMENT DISPLAY (PMD)
- 127 MIMIC DIAGRAM
- 127 DISPLAY
- 128 CUSTOMER INTERFACES Terminals X1…X
- 128 CUSTOMER INPUTS DRY PORTs: Terminal block X
- 128 CUSTOMER OUTPUTS DRY PORTs : Terminal blocks X
- 129 OPTIONS
- 129 SNMP card / WaveMon Management Software
- 129 BATTERY AUTONOMIES
- 129 Examples of Internal Battery Autonomy of DPA UPScale RI 11, RI 12, RI 22 , RI
- 130 INSTALLATION PLANNING
- 130 HEAT DISSIPATION PER MODULE WITH NON-LINEAR LOAD
- 131 WIRING AND BLOCK DIAGRAMS FOR ALL FRAMES AND MODULES
- 131 TERMINAL CONNECTIONS OVERVIEW
- 132 SINGLE FEED INPUT
- 132 SINGLE FEED INPUT / Cable Sections
- 133 DUAL FEED INPUT
- 133 Dual FEED INPUT / Cable Sections