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Procedures for single TLE Scalable Series 40 to. ABB TLE Scalable UL Series UPS 86 Pages
Procedures for single TLE Scalable Series 40 to. ABB TLE Scalable UL Series UPS
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54/86 TLE Scalable Series 40 to 150 UL S1 UPS User Manual / REV-B
7.1
Procedures for single TLE Scalable Series 40 to 150
7.1.1
Initial start-up of the TLE Scalable Series 40 to 150
Warning!
Before proceeding to turn ON the UPS system, ensure that the AC and DC external isolators are OFF and prevent their inadverted operation.
Ensure that the Output Load distribution can be powered and all the Output Isolators are open.
This procedure must be performed for the first start-up following the installation, with the UPS completely switched Off and not powered.
Open the front door and make sure that:
•
•
All the connections to the input/output terminals or bus bars of the UPS have been made correctly.
The safety screens are fixed in their position.
• The switch “ Q1 - UPS Output ” is open (Pos. O) and the “Battery Cabinet Breaker” must be open (Pos. O).
Q1
I ON
Q1
TLES_UL
_040-150_S
1_Switch AB
B_Q1_01
UPS Output switch
LEDs on Synoptic Diagram
LED 1 Rectifier
LED 2 Inverter
LED 4 Automatic Bypass
LED 5 LOAD on UPS
LED 3 Booster / Battery charger
LED LOAD PROTECTED LED ALARM
Command
Inverter ON
Command
Inverter OFF
Command
System shutdown
Command
System shutdown RESET
1. Switch-ON the Utility voltage from the input distribution (both Rectifier and Bypass if separated).
The UPS performs a “Self-test”.
A successful termination of the tests will be indicated with Overall test results “OK”.
Commissioning cannot be continued should one or more tests result to be negative. Please contact in this case your ABB Service Center.
At this stage the Electronic Power Supply and Control Panel are switched ON and the Buzzer sounds.
Press “MUTE” key to reset Acoustical Alarm.
LED ALARM remains lit.
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55/86 TLE Scalable Series 40 to 150 UL S1 UPS User Manual / REV-B
During the first commissioning TLE Scalable Series 40 to 150 requests a set-up of the UPS configuration parameters presented in the following “Power-Up” screen.
Without such configuration it is not possible to continue with the commissioning procedure.
Warning!
The set-up of the UPS configuration parameters must be done only by an ABB Service Technician!
The set-up of mistaken values could compromise the integrity and reliability of the UPS!
UPS
Language
Date (dd.mm.yyyy)
Time (24h)
Input Frequency
Output Frequency
Inverter Voltage
This parameter allows the choice of language used to display the information.
You can adjust the date of the real time clock existing in the UPS by the means of this parameter.
The value you enter is thoroughly checked to be a correct date in the format
“dd.mm.yyyy”.
You can adjust the time of the real time clock existing in the UPS by means of this parameter.
The value you enter is thoroughly checked to be a correct time in the format
“hh.mm.ss”.
The time is specified in 24-hour format.
Frequency value of the Rectifier input Utility (50 Hz / 60Hz).
Inverter output frequency value (50 Hz / 60Hz).
Output voltage PHASE/NEUTRAL of the Inverter (277V).
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56/86
Battery
Capacity
Recharge Mode
Float Voltage
Recharge Current
Stop Operation Time
Cells
TLE Scalable Series 40 to 150 UL S1 UPS User Manual / REV-B
Ah capacity of the Battery.
Recharge type of the Battery
Normal Valve Regulated Lead Acid Battery (VRLA), NiCd without boost-charge and Flooded Lead Acid Battery without boost-charge.
-
-
-
-
-
NiCd boost
Wet lead acid boost
Flywheel
Li-Ion LGG
Li-Ion SDI
Nickel Cadmium Battery with boost-charge.
Flooded Lead Acid Battery with boost-charge.
Flywheel System.
Lithium Battery by LG brand.
Lithium Battery by Samsung brand.
Voltage to maintain Battery Charging.
Float voltage = Number of Battery cells x Battery float voltage per cell.
Typical Battery float voltage per cell (ask the Battery manufacturer for confirmation):
Valve Regulated Lead Acid Battery (VRLA):
2.27Vdc for cell
240 cells x 2.27Vdc = 545Vdc
NiCd Battery without boost-charge:
1.41Vdc for cell
284÷309 cells x 1.41Vdc = 401 ÷ 436Vdc
NiCd Battery with boost-charge:
1.41 (1.55 boost-charge) Vdc for cell
281 cells x 1.41Vdc = 397 (436) Vdc
Flooded Lead Acid Battery without boost-charge:
2.23Vdc for cell
180÷195 cells x 2.23Vdc = 402 ÷ 435Vdc
Flooded Lead Acid Battery with boost-charge:
2.23 (2.35 boost-charge) Vdc for cell
180÷185 cells x 2.23Vdc = 402 (423) ÷ 413 (435) Vdc
Maximum Battery Recharge Current.
Max 20% of Battery capacity (Ah).
Example: 123Ah – max. recharging current 24.6A.
Residual Battery Autonomy time before UPS forced shut-down.
Standard set 3 minutes.
Settable from 1 minute to autonomy time in minutes.
Number of cells of the Battery, see “ Float voltage ”.
Example: 240 Battery cells
-
-
-
40 blocks / 12Vdc Battery
80 blocks / 6Vdc Battery
240 blocks / 2Vdc Battery
Note!
The values indicated above, must be considered as standard values.
The actual programmed values must be the ones defined from the Battery Manufacturer.
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57/86 TLE Scalable Series 40 to 150 UL S1 UPS User Manual / REV-B
2. Close “Q1 - UPS Output switch” (Pos. I).
• The Load is supplied by the Utility through the Automatic Bypass.
• Rectifier starts automatically. LED 1 (Rectifier) blinking, indicates Soft-start.
• At the end of Rectifier Soft-start the LED 1 (Rectifier) remains lit.
The Synoptic Diagram must display the status
“ Load supplied by Automatic Bypass ”.
Note!
Ensure the LED 1 (Rectifier) is lit before carrying out this procedure (3).
It indicates that the DC-link 1 and DC-link 2 has reached 450Vdc (see screen MEASURES /
Rectifier)!
Verify the right DC polarities on both side of the switch/fuse holder!
3. Connect the Battery to the UPS by closing the “Battery Cabinet
Breaker (pos. I).
Note!
Before performing the next procedure (4) make sure that the LED 3 (Booster/Battery charger) is lit.
4. Insert the Inverter performing the command "Inverter ON".
Perform the “Inverter ON” command from the screen:
Commands 1 / Inverter / ON .
• Soft-start of the Inverter indicated with blinking LED 2 (Inverter).
• At the end of Inverter Soft-start the LED 2 (Inverter) remains lit.
• The Load is automatically transferred from Automatic Bypass to Inverter.
• LED ALARM turns OFF and the LED LOAD PROTECTED must be lit.
The Synoptic Diagram must display the status
“ Load supplied by Inverter ”.
5. Operation mode selection.
TLE Scalable Series 40 to 150 is delivered normally selected for permanent VFI operation.
The “SEM - Super Eco Mode” Operation Mode can be enabled and the SEM Start Time & SEM Stop Time can be programmed for each day of the week (see Section 6.4 SETUP / eBoost).
End of Procedure
Note!
The Battery must be charged for at least 10 hours, in order to ensure the full backup runtime in case of a Utility Failure.
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Table of contents
- 6 Safety rules
- 8 Safety symbols and warnings
- 8 Cyber security
- 9 Layout
- 9 Layout TLE Scalable Series 40 to
- 10 Introduction
- 11 Description
- 12 Block diagram and main elements
- 13 Operation modes
- 13 Normal VFI Operation Mode (Voltage Frequency Independent)
- 13 SEM Operation Mode (Super Eco Mode)
- 14 Utility Failure Operation
- 14 Utility Recovery Operation
- 15 Automatic Bypass
- 16 RPA Parallel System operation
- 16 Introduction to the RPA Parallel System
- 17 Features of RPA Parallel System
- 17 System control
- 17 Synchronization
- 17 Load sharing
- 18 IEMi Operation Mode (option)
- 19 UPS paralleled on the same Battery
- 20 Service and technical support
- 20 Warranty
- 21 Recycling instructions
- 22 Control Panel
- 23 LCD screen
- 23 Home screen
- 24 Description of the selection keys
- 25 Description of the signaling LEDs
- 28 Measures
- 32 Events
- 34 Events (alarms and messages)
- 34 Alarms list
- 38 Messages list
- 41 Setup
- 47 Commands
- 51 RPA Parallel System
- 53 Operation
- 54 Procedures for single TLE Scalable Series 40 to
- 54 Initial start-up of the TLE Scalable Series 40 to
- 58 Complete UPS shut-down
- 59 Restore to normal operation after “System shutdown” with Load not supplied
- 60 Restore to normal operation after “EPO - Emergency Power Off” with Load not supplied
- 61 Procedures single TLE Scalable Series 40 to 150 functioning as Frequency Converter
- 61 Initial Start-up of the TLE Scalable Series 40 to 150 as Frequency Converter
- 65 Complete shut-down of the TLE Scalable Series 40 to 150 as Frequency Converter
- 66 Restore to normal operation after “System shutdown” with Load not supplied
- 67 Restore to normal operation after “EPO - Emergency Power Off” with Load not supplied
- 68 Procedures for TLE Scalable Series 40 to 150 RPA Parallel System
- 68 TLE Scalable Series 40 to 150 RPA Parallel System start-up
- 73 Separate a UPS Unit from the RPA Parallel System (System Redundancy)
- 75 Reconnect a UPS Unit to RPA Parallel System
- 77 Complete RPA Parallel System shut-down
- 78 Restore to normal operation after “System shutdown” with Load not supplied
- 80 Restore to normal operation after “EPO - Emergency Power Off” with Load not supplied
- 82 Options
- 82 Connectivity options
- 82 Options in UPS cabinet
- 82 Options in additional cabinets
- 83 Maintenance
- 83 Service check
- 83 Fans and ventilation
- 83 Other components with limited lifetime
- 84 Battery
- 84 UPS room conditions and temperature
- 84 Preventive maintenance program
- 85 Notes
- 85 Notes Form