AEG Power Supply PROTECT 1100 User Manual

UPS OPERATING INSTRUCTIONS  
PROTECT 1.  
PROTECT 1.100  
PROTECT 1.150  
PROTECT 1.200  
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Thank you for deciding to purchase the PROTECT 1. UPS  
from AEG Power Supply Systems.  
The following safety instructions are an important part of  
the operating instructions are will protect you against  
problems from operating errors and possible dangers.  
Please read these instructions carefully prior to  
commissioning!  
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1 Notes on these Operating  
Instructions  
Duty to provide information  
These operating instructions will help you to install and operate  
the Uninterruptible Power Supply (UPS), PROTECT 1.100,  
PROTECT 1.150 or PROTECT 1.200 as well as the  
corresponding external battery units PROTECT 1.100 BP or  
PROTECT 1.BP20, all referred to as PROTECT 1 in the  
following, safely and correctly. These operating instructions  
contain important information for avoiding dangers.  
Please read these instructions carefully prior to  
commissioning!  
These operating instructions are an integral part of  
PROTECT 1.  
The owner of this unit is obliged to communicate the full content  
of these operating instructions to all personnel transporting or  
starting the PROTECT 1 or performing maintenance or any  
other work on the unit.  
Validity  
These operating instructions comply with the current technical  
specifications of PROTECT 1. at the time of publication. The  
contents do not constitute a subject matter of the contract, but  
serve for information purposes only.  
Warranty and liability  
We reserve the right to alter any specifications given in these  
operating instructions, especially with regard to technical data  
and operation.  
Claims in connection with supplied goods must be submitted  
within eight days of receiving the goods, along with the packing  
slip. Subsequent claims cannot be considered.  
The warranty does not apply for damage caused by non-  
compliance with these instructions (such damage also includes  
damage to the warranty seal). AEG will accept no liability for  
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consequential damage. AEG will rescind all obligations such as  
warranty agreements, service contracts, etc. entered into by  
AEG or its representatives without prior notice in the event of  
maintenance and repair work being carried out with anything  
other than original AEG parts or spare parts purchased  
from AEG.  
Handling  
PROTECT 1. is designed and constructed so that all necessary  
steps for start-up and operation can be performed without any  
internal manipulation of the unit. Maintenance and repair work  
may only be performed by trained and qualified personnel.  
Illustrations are provided to clarify and facilitate certain steps.  
If danger to personnel and the unit cannot be ruled out in the  
case of certain work, it is highlighted accordingly by pictographs  
explained in the safety regulations of chapter 3.  
Hotline  
If you still have questions after having read these operating  
instructions, please contact your dealer or our hotline:  
Tel:  
+49 (0)180 5 234 787  
+49 (0)180 5 234 789  
Fax:  
Copyright  
No part of these operating instructions may be transmitted,  
reproduced and/or copied by any electronic or mechanical  
means without the express prior written permission of AEG.  
© Copyright AEG 2007. All rights reserved.  
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Table of Contents  
1
2
Notes on these Operating Instructions .............................4  
General Information ..........................................................8  
2.1 Technology................................................................8  
2.2 System Description..................................................10  
2.3 Technical data .........................................................12  
Safety Regulations..........................................................16  
3.1 Important Instructions and Explanations .................16  
3.2 Accident Prevention Regulations ............................16  
3.3 Qualified Personnel .................................................17  
3.4 Safety Instructions for PROTECT 1. .......................17  
3.5 CE certificate ...........................................................21  
Set-up..............................................................................22  
3
4
4.1 Unpacking and inspection .......................................22  
4.2 Transport to installation site.....................................23  
4.3 Set-Up......................................................................23  
4.4 Overview: Connections, Operating /  
Display Elements.....................................................25  
4.4.1 Front view...........................................................25  
4.4.2 Display ...............................................................26  
4.4.3 Rear view (connections): ...................................27  
5
Electrical connection.......................................................29  
5.1 Safety of personnel..................................................30  
5.2 Mains connection (general) .....................................30  
5.2.1 Checklist for cable connections .........................30  
5.2.2 Connection Cross-Sections and Fuse  
Protection...........................................................31  
5.3 Mains connection.....................................................32  
5.3.1 Preparation for the three-phase mains  
connection  
....................................................32  
5.3.2 Connection of the three-phase input  
mains voltage.....................................................32  
5.3.3 Preparation of the output cabling.......................33  
5.3.4 Connection of the loads .....................................34  
5.4 Connection of external battery modules..................34  
5.4.1 Connection of the battery cubicle  
PROTECT 1.100 BP..........................................35  
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5.4.2 Connection of the battery cubicle PROTECT 1.  
BP20 ..................................................................36  
5.5 Mechanical blocking of the PROTECT 1.................37  
Start-Up...........................................................................38  
6.1 Operating modes.....................................................39  
6.1.1 Normal operation ...............................................39  
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6.1.2 Battery Operation / Autonomous Operation ......40  
6.1.3 Bypass operation ...............................................42  
6.1.4 Manual bypass...................................................44  
6.1.5 Unit overload......................................................45  
7
8
Interfaces and communication........................................46  
7.1 Computer interface RS232......................................46  
7.2 Communication Slot ................................................46  
7.3 Shutdown and UPS Management Software............46  
Displays and troubleshooting..........................................48  
8.1.1 Signalling ...........................................................48  
8.1.2 Overview table of LED displays / acoustic  
warning signals ..................................................50  
8.2 Faults.......................................................................52  
8.2.1 Error Messages..................................................52  
9
Parallel Operation ...........................................................54  
9.1 Principle of Operation..............................................54  
9.2 Set-up / connection of parallel operation board ......55  
9.3 Operation of the UPS in a parallel system ..............57  
9.3.1 Start-Up..............................................................57  
9.3.2 Changes to the parallel system .........................59  
10 Maintenance ...................................................................60  
10.1 Charging the Battery ...............................................60  
10.2 Checks.....................................................................60  
10.2.1 Visual check.......................................................60  
10.2.2 Checking the battery..........................................61  
10.2.3 Fan check ..........................................................61  
11 Storage, Dismantling and Disposal.................................62  
11.1 Storage....................................................................62  
11.2 Dismantling..............................................................62  
11.3 Disposal...................................................................62  
12 List of terms ....................................................................63  
12.1 Technical terminology .............................................63  
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2 General Information  
2.1  
Technology  
PROTECT 1. is an Uninterruptible Power  
Supply (UPS) for essential loads such as small  
data centres, servers, network components,  
telecommunications equipment and similar units. It  
consists of:  
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Mains filter with overvoltage protection (appliance  
protection / class D) and mains energy backfeed  
protection  
Rectifier section with PFC logic  
(power factor correction unit)  
Separate battery charger with  
switch mode power supply technology  
IGBT inverter for continuous supply of connected loads with  
sinusoidal AC voltage  
Automatic electronic bypass (SBS)  
as additional, passive redundancy  
SBS = Static Bypass Switch  
Manual bypass for maintenance and  
service purposes (with automatic  
SBS activation upon actuation)  
Control unit  
on the basis of digital signal processor technology  
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Manueller Service - Bypass  
Elektron. Verriegelung  
EUE  
Manual service bypass  
Electronic locking  
SBS  
PFC  
PFC  
Netzfilter  
Mains filter  
Last  
Load  
Netz  
Mains  
Filter  
Filter  
Gleichrichter  
Rectifier  
Wechselrichter  
DC/ DC Booster  
Ladegleichrichter  
DSP Regelungslogik  
Komponentendarstellung  
Batteriesystem (extern)  
RS 232 SNMP  
Inverter  
DC/DC booster  
Battery charger  
DSP control logic  
Component diagram  
Battery system (external)  
RS 232 SNMP  
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2.2  
System Description  
The UPS is connected between the public utility mains and the  
loads to be protected.  
The power section of the rectifier converts the mains voltage to  
DC voltage for supplying the inverter. The circuit technology used  
(PFC) enables sinusoidal current consumption and therefore  
operation with little system disturbance. A separate, second  
rectifier (charging REC set up using switch mode power supply  
technology) is responsible for charging or trickle-charging the  
battery connected in the intermediate circuit. The configuration of  
this charging REC means the harmonic content of the charging  
current for the battery is almost zero, which increases the service  
life of the battery even more. The inverter is responsible for  
converting the DC voltage into a sinusoidal output voltage. A  
microprocessor-driven control based on a pulse-width modulation  
(PWM) guarantees, in conjunction with digital signal processor  
technology and extremely fast pulsating IGBT power  
semiconductors of the inverter, a voltage system of the highest  
quality and availability on the secured busbar.  
In the event of mains faults (such as e.g. current failures), the  
voltage continues to be supplied from the inverter to the load  
without any interruption. From this point onwards, the inverter  
draws its power from the battery instead of the rectifier. Since no  
switching operations are necessary, there is no interruption in the  
supply to the load.  
The automatic electronic bypass serves to increase the reliability  
of the supply further, especially in the case of individual systems.  
It switches the public mains directly through to the load without  
any interruption, e.g. when there is an inverter malfunction. As a  
result, the automatic bypass represents an extra passive  
redundancy for the load.  
An integrated, manually operated bypass unit ensures an  
uninterrupted supply to the connected loads in the case of  
maintenance and/or service work. The internal electronic part  
(with the exception of the metal-clad manual bypass) can be  
disconnected via the mains input miniature circuit breakers.  
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The greatest possible supply reliability of connected loads is  
attained by the parallel connection of up to max. three  
PROTECT 1. UPS systems. The n+x technology thus  
guarantees maximum reliability through up to double active  
redundancy on the one hand as well as on the other hand the  
possibility of increased power with simple redundancy or even  
only higher UPS power without any redundancy. The relationship  
between the available output power and the degree of active  
redundancy can be seen in the following overview:  
Parallel system with PROTECT 1.100  
Number of UPS units  
Available power  
1
10 kVA  
---  
2
3
0
1
2
20 kVA  
10 kVA  
---  
30 kVA  
20 kVA  
10 kVA  
Active  
redundancy  
degree  
---  
Parallel system with PROTECT 1.150  
Number of UPS units  
2
Available power  
1
3
0
15 kVA  
---  
30 kVA  
15 kVA  
---  
45 kVA  
30 kVA  
15 kVA  
Active  
redundancy  
degree  
1
2
---  
Parallel system with PROTECT 1.200  
Number of UPS units  
2
Available power  
1
3
0
20 kVA  
---  
40 kVA  
20 kVA  
---  
60 kVA  
40 kVA  
20 kVA  
Active  
redundancy  
degree  
1
2
---  
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2.3  
Technical Data  
Type rating  
PROTECT 1.100  
10000 VA (cos ϕ = 0.7 ind.)  
7000 W  
PROTECT 1.150  
PROTECT 1.200  
15000 VA (cos ϕ = 0.7 ind.)  
10500 W  
20000 VA (cos ϕ = 0.7 ind.)  
14000 W  
UPS input  
3ph~ / N / PE  
Rated connection voltage  
Voltage range without  
battery operation  
400 V/ 230 VAC  
304 VAC – 478 VAC ± 3 %  
(rectifier)  
176 VAC – 261 VAC VAC ± 3 %  
(bypass)  
Frequency  
50 Hz / 60 Hz  
(autom. detection)  
Frequency tolerance range  
± 4 Hz  
Current consumption at full load (max.)  
PROTECT 1.100  
13 A (3ph~) / 46 A (bypass)  
PROTECT 1.150  
19 A (3ph~) / 68 A (bypass)  
25 A (3ph~) / 91 A (bypass)  
λ 0.95  
PROTECT 1.200  
System disturbance factor  
UPS output  
Nominal voltage output  
220 / 230 / 240 VAC ± 1%  
(configuration via  
“CompuWatch” software )  
Nominal frequency  
Type of voltage  
50 Hz / 60 Hz ± 0.1%  
(dependent on mains frequency)  
Sine, distortion  
2% THD (linear load)  
6% THD (non-linear load)  
Crest factor  
3:1  
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Overload behaviour  
with mains supply  
Up to 105% continuous;  
> 105% – < 130% for 10 min.  
130% for 1s  
Following this, automatic,  
uninterrupted switchover to  
integrated bypass (SBS).  
Switch-off after 1 min if overload  
continues to be present. (Switch  
back if overload decreases = load <  
90%)  
Overload behaviour with  
battery operation  
Up to 105% continuous;  
> 105% for 10 s  
Short-circuit behaviour  
2.5 x IN for 100 ms  
Battery  
Standby times with external standard battery units  
Standby times (full load / half load) [min.]  
PROTECT  
1.200  
Coupled  
battery cubicles  
Recharging time  
to 90% capacity  
PROTECT  
1.100  
PROTECT  
1.150  
1 x PROTECT 1.100 BP  
2 x PROTECT 1.100 BP  
3 x PROTECT 1.100 BP  
16 / 42  
42 / 97  
60 / 134  
---  
---  
---  
---  
---  
---  
5h  
7h  
10h  
1 x PROTECT 1. BP 20  
2 x PROTECT 1. BP 20  
3 x PROTECT 1. BP 20  
4 x PROTECT 1. BP 20  
5 x PROTECT 1. BP 20  
19 / 47  
47 / 103  
78 / 77  
103 / 243  
138 / 312  
10 / 29  
29 / 68  
47 / 103  
68 / 153  
85 / 202  
6 / 19  
19 / 47  
34 / 62  
47 / 103  
63 / 138  
5h  
9h  
13h  
18h  
24h  
Nominal DC voltage (intermediate circuit): 240 VDC  
Trickle charge voltage: 274 VDC ± 1%  
Battery charging current (max.): 4.2 ADC  
Type  
Sealed, maintenance-free  
PROTECT 1.100 BP  
2x20 blocks 12V 9Ah,  
e.g. CSB HR 1234WF2  
PROTECT 1.BP20  
1x20 blocks 12V 20Ah,  
e.g. Panasonic LC-X1220P  
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Communication  
Interfaces  
RS232  
Sub-D (9-pin)  
Additionally: Communication slot  
for expansions (e.g. AS/400 / USB  
/ remote signal indicator /  
SNMP, …)  
Shutdown software on CD  
“CompuWatch” for all common  
operating systems, e.g. Windows,  
Linux, Mac, Unix, FreeBSD,  
Novell, Sun  
General data  
Classification  
VFI SS 111 acc. to IEC 62040–3  
Sustained transformer technology  
Full load efficiency  
(AC-AC / DC-AC)  
> 90% / > 88%  
Inherent noise (1m distance)  
PROTECT 1.100  
PROTECT 1.150  
PROTECT 1.200  
Cooling type  
< 55 dB(A)  
< 60 dB(A)  
< 60 dB(A)  
Forced air cooling through  
variable-speed fans  
Operating temperature range 0°C to +40°C  
Recommended: +15°C to +25°C  
(due to battery system)  
Storage temperature range  
Relative humidity  
Site altitude  
0°C to +40°C  
< 95% (without condensation)  
Up to 1000 m at nominal output  
Use more than 1000 m above sea  
level results in the following  
reduction in output power:  
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Height(m) 1000 1500 2000 2500 3000  
Output  
100% 95% 90% 85% 80%  
power  
Housing colour:  
Blackline  
Weight:  
PROTECT 1. 100  
PROTECT 1. 150  
PROTECT 1. 200  
PROTECT 1. 100 BP  
PROTECT 1. BP20  
Dimensions W x H x D:  
39 kg  
55 kg  
55 kg  
135 kg  
170 kg  
PROTECT 1.100/1.150/1.200 260 mm x 717 mm x 670 mm  
PROTECT 1.100 BP  
PROTECT 1.BP 20  
260 mm x 717 mm x 670 mm  
260 mm x 717 mm x 810 mm  
Directives  
The PROTECT 1. meets the product standard EN 50091.  
The CE mark on the unit confirms compliance with the EC  
outline directives for 73/23 EEC – Low voltage and for 89/336  
EEC – Electromagnetic compatibility if the installation  
instructions described in the operating instructions are  
observed.  
For 73/23 EEC low-voltage  
directive reference number  
EN 62040-1-1 : 2003  
For 89/336 EMC directive  
reference number  
EN 50091-2 : 1995  
EN 61000-3-2 : 1995  
EN 61000-3-3 : 1995  
Warning:  
This is a product for industrial and commercial  
use in the second environment – to prevent  
malfunctions, restrictions on the installation or  
additional measures may be required.  
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3
Safety Regulations  
3.1  
Important Instructions and Explanations  
The instructions for operation and maintenance, as well as the  
following safety regulations must be complied with to ensure  
the safety of personnel as well as the continued availability of  
the unit. All personnel installing/dismantling, starting up,  
operating or servicing the units must be familiar with and  
observe these safety regulations. Only trained and qualified  
personnel may perform the work described, using tools,  
equipment, test equipment and materials intended for the  
purpose and in perfect working condition.  
Important instructions are emphasized by the words “Caution”,  
Attention”, “Note” and indented text.  
Caution  
This symbol identifies all working and operational  
procedures requiring absolute compliance to  
avoid any danger to persons.  
Attention  
This symbol identifies all working and operational  
procedures requiring absolute compliance to  
prevent any damage, irreparable or otherwise, to  
the unit and its components.  
Note  
This symbol identifies technical requirements and  
additional information requiring the operator's  
attention.  
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3.2  
Accident Prevention Regulations  
Compliance with the accident prevention regulations valid in the  
respective country of use and the general safety regulations in  
accordance with IEC 364 is mandatory. The following safety  
rules must be observed prior to performing any work on the  
PROTECT 1.:  
Disconnect the unit from the power supply  
Secure the unit against being switched back on  
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Verify that the unit is disconnected from the power supply  
Earth and short-circuit the unit  
Provide protection by covers or barriers for any  
neighbouring live parts  
3.3  
Qualified Personnel  
The PROTECT 1. may only be transported, installed,  
connected and serviced by qualified personnel who are familiar  
with the pertinent safety and installation regulations. All work  
performed must be inspected by responsible expert personnel.  
The qualified personnel must be authorised by the responsible  
safety officer of the installation to perform the work required.  
Qualified personnel is defined as personnel  
having completed training and gained experience in the  
respective field,  
familiar with the pertinent standards, rules and  
regulations and accident prevention regulations,  
having received instruction on the mode of operation and  
operating conditions of the PROTECT 1.,  
capable of recognising and preventing dangers.  
Regulations and definitions for qualified personnel can be found  
in DIN 57105/VDE 0105 Part 1.  
3.4  
Safety Instructions for PROTECT 1.  
The UPS is live, and the voltage can be  
dangerous. The unit may only be installed and  
if necessary opened by trained and qualified  
personnel. Repairs may only be carried out by  
qualified customer service staff!  
The output can be live, even when the UPS is not  
connected to the mains supply!  
For health and safety reasons, the unit must be  
earthed correctly!  
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The PROTECT 1. may only be operated with or connected to a  
three-phase power system with protective grounding using a  
mains connection cable with PE conductor that has been tested  
according to German standards (VDE).  
Risk of burning!  
The battery has powerful short-circuit currents.  
Incorrect connection or isolation faults can lead to  
melting of the plug connections, sparking potential  
and severe burns!  
The unit has a warning signal that sounds when  
the battery voltage of PROTECT 1. is exhausted  
or when the UPS is not working in its normal  
mode (see also chapter 6.1 "Signalling”, page 47ff  
and the following).  
Observe the following safety instructions to  
ensure permanent operational safety of and safe  
work with the UPS and the battery modules  
(special accessories):  
Do not dismantle the UPS!  
(The UPS does not contain any parts that require regular  
maintenance. Bear in mind that the warranty will be  
invalidated if the unit is opened!)  
Do not install the unit in direct sunshine or in close  
proximity of heaters!  
The unit is designed to be installed inside in heated  
rooms. Never install the housing in the vicinity of water or  
in an excessively damp environment!  
Condensation may occur if the UPS is brought from a  
cold environment into the room where it is to be installed.  
The UPS must be absolutely dry prior to start-up. As a  
result, leave it to acclimate for at least two hours.  
Never connect the mains input and the UPS output!  
Ensure that no fluids or foreign bodies can penetrate the  
housing!  
Do not block the air vents of the unit! Make sure, for  
example, that children do not insert any objects in the  
ventilation openings!  
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Do not connect household appliances such as hairdryers  
to the UPS! Also take care when working with motor  
loads. It is essential to avoid back-feeding the inverter,  
e.g. if the load is intermittently operated in regenerative  
mode.  
Danger! Electric shocks!  
Even after the mains voltage has been  
disconnected, the components within the UPS  
remain connected to the battery and can thus  
cause electric shocks. It is therefore imperative  
to disconnect the battery circuit before carrying  
out any maintenance or repair work!  
If it is necessary to replace the battery or carry  
out maintenance work, this must be done by or  
under the supervision of a specialist familiar  
with batteries and the necessary safety  
precautions!  
Only authorized persons are allowed in the  
vicinity of the batteries!  
When replacing the batteries, the following must be observed:  
Only ever use identical, maintenance-free sealed lead batteries  
with the same data as the original batteries.  
Danger! Explosive!  
Never throw batteries into open fire.  
Never open or damage batteries. (Electrolyte  
may leak out and damage skin and eyes. It may  
be toxic!)  
Batteries can cause electric shocks and high  
short-circuit currents.  
Therefore, take the following safety precautions when working  
with batteries:  
Take off watches, rings and other metallic objects!  
Only use tools with insulated handles!  
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Avoid using multiple outlet adapters with a  
central on/off switch as protection against  
uncontrolled load switch-off as well as for  
avoiding peak inrush currents.  
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Switch OFF the UPS using its main switch if you do not intend  
to use it for some time. PROTECT 1. must be switched off  
every evening if the electricity supply in your company is  
switched off every night. Otherwise, the battery will be  
discharged. Frequent and exhaustive discharging of the battery  
leads to a shorter service life of the battery and should  
therefore be avoided!  
For personal safety reasons, never switch on  
the main switch when the mains connector of  
PROTECT 1. is disconnected!  
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3.5  
CE Certificate  
21  
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4 Set-up  
4.1  
Unpacking and Inspection  
The unit has been completely checked and inspected. Although  
the unit has been packed and shipped with the usual care,  
transport damage cannot be completely excluded.  
Any claims due to transport damage must  
always be asserted against the transport  
company!  
i
Check the shipping container for damage on arrival. If  
necessary, ask the transport company to check the goods and  
make a record of the damage in the presence of the transport  
company employee and report the damage to the AEG  
representative or dealer within eight days of delivery.  
Check that the delivery is complete:  
PROTECT 1. with 10000, 15000 or 20000 VA  
Cable clamping unit  
Special battery connection cable (PROTECT 1.100)  
25-pin parallel operation cable  
RS232 communication cable  
Management software “CompuWatch” on CD  
Operating instructions  
Delivery of external battery modules includes:  
External battery unit  
Battery connection cable  
Battery fuses and terminal connectors (PROTECT 1.  
BP20)  
Please contact our hotline (see page 5) in case of any  
discrepancy.  
The original packaging provides effective protection against  
mechanical shocks and should be retained so the unit can be  
transported safely later on.  
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Please keep plastic packaging bags away from babies and  
children in order to safeguard against suffocation accidents.  
Handle the components with care. Please take into account the  
weight. It may be necessary to engage the help of a second  
person.  
4.2  
Transport to Installation Site  
The PROTECT 1. is equipped with transport rolls for easy  
transport to the intended installation site. It is recommended to  
install the UPS where:  
The connection work can be conveniently carried out;  
There is enough space for proper operation and, if  
necessary, for periodic and extraordinary maintenance  
work; in this regard, the connection cables should be  
long enough to move the UPS (to open the UPS if  
necessary) without having to switch it off.  
The use of an external manual bypass is recommended  
The UPS is protected against external atmospheric  
influences;  
The humidity and the ambient temperature are within the  
limits;  
The fire protection standards are observed.  
The battery service life strongly depends on the ambient  
temperature. Ambient temperatures between+ 15° and + 25°C  
are optimum.  
Attention!  
Only transport the PROTECT 1. in an upright  
position! Never tilt or cant it; avoid displacing  
the centre of gravity!  
Make sure that no magnetic storage media are stored and/or  
operated close to PROTECT 1.  
4.3  
Set-Up  
Note the following points when setting up the UPS system and  
its external battery units (special accessories):  
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The contact surface must be smooth and level. It must  
also be sufficiently strong and sturdy to avoid vibration  
and shocks.  
Make sure that the mounting is able to support the  
weight, especially in conjunction with external battery  
units (special accessories).  
Set up the units so that adequate air circulation is  
assured. There must be at least 200 mm clearance  
behind the rear fans for ventilation purposes. Do not  
block the intake openings on the front and, if present, on  
the side of the unit. There must be a gap of at least  
50 mm here.  
External battery units must be placed on the side of the  
UPS system. To ensure the greatest possible mechanical  
stability, do not place the external battery unit(s) above  
or below the UPS system.  
Avoid extreme temperatures! We recommend an ambient  
temperature from 15°C to 25°C in order to maximize the  
service life of the batteries. Do not expose the units to  
direct sunlight or operate them close to other heat  
sources such as radiators.  
Protect the units against external effects (in particular  
moisture and dust). In this regard, please also refer to the  
instructions in chapter 3, page 16 in these operating  
instructions.  
If you transport the unit from a cold room into a warm one, or if  
the room temperature suddenly drops, then condensation may  
form inside the unit. To avoid any damage due to condensation,  
let the unit acclimate for 2 hours before you switch it on.  
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4.4  
Overview: Connections, Operating / Display  
Elements  
4.4.1  
Front view  
PROTECT 1.100  
PROTECT 1.150  
PROTECT 1.200  
PROTECT 1.100BP  
PROTECT 1.BP20  
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4.4.2  
Display  
12  
11  
10  
9
8
7
3
6
4
5
1
2
1.  
2.  
3.  
4.  
5.  
6.  
OFF pushbutton  
ON pushbutton / alarm off  
Orange-coloured Bypass LED  
Green Inverter LED  
Orange-coloured Battery LED  
Green Line LED  
7 – 11. Bar graph LED (7-10 green, 11 orange-coloured) for  
UPS capacity utilisation or remaining battery  
capacity  
7.  
8.  
LED load (0-35%)  
battery capacity (96-100%)  
LED load (36-55%) battery capacity (76-95%)  
LED load (56-75%) battery capacity (51-75%)  
LED load (76-95%) battery capacity (26-50%)  
LED load (96-105%) battery capacity (0-25%)  
Red Fault LED  
9.  
10.  
11.  
12.  
A detailed explanation of the displays is found on page 48ff.  
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4.4.3  
Rear view (connections):  
PROTECT 1.100  
8
7
13  
11  
6
5
11  
10  
9
4
3
2
1
1.1  
1.2  
1.3  
N
L1 L2 L3 JP1 JP2  
L
N
PROTECT 1.150 / 1.200  
6
6
13  
11  
12  
11  
5
3
7
8
10  
4
9
1.1  
1.3  
1.2  
2
1
JP1 JP2  
N
L1 L2 L3  
+
-
L
N
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Explanations:  
1.  
Connection terminal cover for mains/UPS input (1.1)  
and output (1.3), additional pair of terminals for  
setting individual or parallel operation (1.2);  
Battery connection terminals  
(PROTECT 1.150 / 1.200)  
2.  
3.  
4.  
Mains input miniature circuit breaker  
Manual bypass switch  
Socket for external battery module  
(PROTECT 1.100) or connection terminals for  
external battery (PROTECT 1.150/1.200)  
5.  
6.  
Connectors for parallel operation  
Fan (attention: Leave at least 10 cm clearance  
behind fan for unobstructed airflow out!)  
7.  
Communication slot for optional expansion boards:  
SNMP, AS/400, USB  
8.  
9.  
Communication interface RS232 (Sub-D9)  
Cable clamping unit (is mounted instead of the  
cover from no. 1)  
10.  
11.  
12.  
Strain relief clamps  
PE/earthing terminals  
Macrolon plate as additional insulation to prevent  
short circuits when using uninsulated cable lugs  
(PROTECT 1.150/1.200)  
13.  
Cover of the cable clamping unit  
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5 Electrical Connection  
Caution  
Prior to commencing work, ensure that the  
connection cables are de-energised and that it is  
not possible to activate the power supply.  
In order to avoid deformation of the supporting rail  
and to protect the base of the connection terminal  
against torsional forces, it is advisable to hold the  
cable in position when tightening the clamping  
screw.  
i
The protective measure of earth connection serves to prevent  
excessive touch voltage on freely accessible metal parts. The  
PROTECT 1. is earthed by the provided earthing bolts (  
/
PE). Prior to start-up, it must be ensured that the PROTECT 1.  
is earthed in accordance with valid regulations, e.g. VDE 0100.  
Before the connection work is carried out, check that:  
The values of the nominal voltage (input voltage) and  
frequency match those on the nameplate of the UPS.  
The earth connection matches the prescribed IEC  
standards or the local regulations,  
The UPS is connected to the electrical mains via a  
separate supply line equipped with fuses on the supply-  
side MI distribution.  
The power fuse in the MI distribution has the same or  
higher value as the one indicated on the nameplate of  
the UPS system.  
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5.1  
Safety of Personnel  
Note the following points when setting up the UPS system and  
its external battery units (special accessories):  
Disconnect the unit from the power supply  
Secure the unit against being switched back on  
Verify that the unit is disconnected from the power supply  
Earth and short-circuit the unit  
Provide protection by covers or barriers for any  
neighbouring live parts  
5.2  
Mains Connection (General)  
In order to ensure the correct functioning of the UPS and its  
additional equipment, it is necessary to equip the mains cable  
with the corresponding fuses.  
5.2.1  
Checklist for Cable Connections  
The connection and earthing terminals of all PROTECT 1. units  
are structured in a similar way. The cables are connected as  
follows:  
Remove terminal cover (retain the four screws).  
Insert the cables to be connected into the terminal space  
of the PROTECT 1. from the rear.  
Connect the wires of the supply lines to the  
corresponding terminal block. Connect the PE to the  
terminal block of the PROTECT 1.100 or to the strain  
relief unit of the PROTECT 1.150 or 1.200.  
Fasten the supplied cable clamping unit (no. 9, p. 27/28)  
with the previously removed screws.  
In the case of the PROTECT 1.150 and 1.200, also  
remove the lateral earthing bolts beforehand and use  
them to fasten the cable clamping unit as well.  
Check to ensure that the cables are secured correctly  
and tighten the fixing bolts if necessary.  
Remove any cable debris, tools, bolts, etc. from the  
connection panel.  
Mechanically secure the cables with the strain relief  
clamps of the cable clamping unit.  
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Mount the connection cover of the cable clamping unit.  
5.2.2  
Connection Cross-Sections and Fuse Protection  
The required dimensions can be found in the following table:  
PROTECT  
1.100  
PROTECT  
1.150*  
PROTECT  
1.200*  
Max.  
current  
consumption 46A  
68A  
91A  
(bypass)  
Incoming mains cable  
(UPS input)  
min.  
max. 16 mm²  
min. 10 mm²  
10 mm²  
16 mm²  
35 mm²  
25 mm²  
35 mm²  
Load connection  
(UPS output)  
16 mm²  
35 mm²  
25 mm²  
35 mm²  
max. 16 mm²  
Battery connection  
Via  
Min. 16 mm², Max. 35 mm²  
per terminal  
enclosed  
battery  
connection  
cable  
protected  
against  
polarity  
reversal  
Battery connection cable is  
included with the battery unit  
Observe earth-fault- and  
short-circuit-proof routing!  
Mains fuse (UPS input)  
50A gl  
80A gl  
100A gl  
When using line safety switches, observe  
trigger characteristic: “D”  
Load fuse  
Line safety switch “B” characteristic  
(recommended max.)  
16A  
20A  
25A  
* To ensure a reliable strain relief, individual wires must be laid  
especially for connecting the 15 and 20 kVA UPS systems.  
Recommended connection cable acc. to VDE 0298-4:  
Specially for 15 and 20 kVA:  
Special rubber-insulated wire  
NSGAÖU or NSGAFÖU  
or NYY or  
Radox 4GKW-AX  
e.g. Huber & Suhner  
Alternatively, the 10 kVA UPS system can also be connected  
via a multi-wire rubber-sheathed cable.  
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5.3  
Mains Connection  
5.3.1  
Preparation for the three-phase mains connection  
Before connection work is performed on the UPS, make sure  
that:  
The values of the nominal voltage (supply) and frequency  
match those on the nameplate of the UPS.  
The earth connection matches the prescribed IEC  
standards or the local regulations,  
The UPS can be connected to the electrical mains via a  
separate supply line equipped with fuses in the supply-  
side MI distribution.  
Back-up fuses or line safety switches are used that  
correspond to the values listed in chapter 5.2.2.  
The connection cable from the back-up fuse to the UPS  
is configured with a minimum cross-section acc. to  
chapter 5.2.2 “Connection Cross-Sections and Fuse  
Protection”.  
The UPS can be live, and the voltage can be  
dangerous. The unit may only be installed and  
if necessary opened by trained and qualified  
personnel. Repairs may only be carried out by  
qualified customer service staff!  
5.3.2  
Connection of the Three-Phase Input Mains Voltage  
In order to ensure the safety of personnel during installation  
work, make sure that the connections are made under the  
following conditions:  
No mains voltage present.  
The loads are switched off.  
The PROTECT 1. is switched off (display completely  
blank).  
To disconnect the PROTECT 1, carry out the following steps as  
well:  
Place the “maintenance switch” manual bypass on the back  
of the UPS in the “bypass” position. To do this, first remove  
the 4 screws of the cover (no.3, p. 27/28).  
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Put the mains input miniature circuit breaker (no.2,  
p. 27/28) in the “OFF” position.  
Connect the UPS terminal “  
/ PE “  
(earth)  
with  
the  
corresponding earth terminal in the distribution cabinet.  
Connect the supply cable from the MI distribution to the  
terminals 1.1 of the UPS that are marked with “INPUT”:  
/ PE  
N
=
=
Ground  
Neutral conductor  
Phases  
L1/L2/L3 =  
Check the jumper between “JP1” and “JP2”  
(terminal designation “JUMPER”).  
Only remove the cable if you want to use the UPS  
in parallel operation with further PROTECT 1. units  
of the same type (see also chapter 9).  
5.3.3  
Preparation of the Output Cabling  
Before you connect the loads to the UPS, the nominal output  
listed on the nameplate must be greater than or equal to the  
sum of the load power outputs.  
The output of the PROTECT 1. should supply further separate  
circuits in a subdistribution. Make sure that the fuse protection is  
selectively designed (see also chapter 5.2.2).  
For the connection between the PROTECT 1. and the  
subdistribution, cable cross-sections acc. to the table  
“Connection Cross-Sections and Fuse Protection” on p. 31  
must be used. In the subdistribution, note at least the following  
information:  
Maximum permissible total load  
Maximum permissible load of the individual load circuits  
In the case of a common distribution cabinet  
(circuits with mains as well as UPS voltage), label  
each circuit with the respective supply (mains or  
UPS).  
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5.3.4  
Connection of the Loads  
In order to ensure the safety of personnel during installation work,  
make sure that the connections are made under the following  
conditions:  
No mains voltage present.  
The loads are switched off.  
UPS is switched off (display completely blank).  
To disconnect the PROTECT 1., carry out the following steps:  
Place the “maintenance switch” manual bypass on  
the back of the UPS in the “bypass” position. For  
this purpose, first remove the 4 screws of the cover  
(no. 3, p. 27/28).  
Put the mains input miniature circuit breaker (no.2, p.  
27/28) to the “OFF” position.  
Connect the loads as follows (terminals 1.3, p. 27/28):  
Connect the UPS terminals  
/PE = ground, N = neutral  
conductor, L = phase that are marked with “OUTPUT” with the  
corresponding terminals of your UPS subdistribution.  
5.4  
Connection of External Battery Modules  
The PROTECT 1. requires the use of at least one external  
battery module. Two preconfigured battery cubicle types are  
available. Both versions guarantee an increase in the attainable  
standby time due to their parallel connection capability (see  
also chapter 2.3).  
PROTECT 1.100 PROTECT 1.150  
PROTECT 1.200  
PROTECT  
1.100 BP  
-
-
No  
mix !  
PROTECT  
1.BP20  
The two cubicle types are distinguished in the following. Follow  
5.4.1 if you use the PROTECT 1.100 BP or 5.4.2 when using  
the PROTECT 1.BP20.  
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5.4.1  
Connection of the Battery Cubicle PROTECT 1.100 BP  
This battery cubicle is completely preconfigured. The  
connection to the UPS unit is ready to be plugged in as a result  
of the supplied battery connection cable.  
PROTECT 1.100 with 1 battery unit PROTECT 1.100 BP  
PROTECT 1.100 BP is only intended for connection  
to the UPS type PROTECT 1.100.  
i
Connect further battery cubicles of identical design (!) to the  
second battery connection socket of the neighbouring battery  
cubicle. Insert the battery connection plugs quickly and firmly  
into the battery connectors.  
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5.4.2  
Connection of the Battery Cubicle PROTECT 1. BP20  
Fig.: Rear view of the PROTECT 1.BP20 with cover removed.  
The battery cubicle is supplied with a separate battery string  
and separately enclosed battery fuses for safety and transport  
protection reasons. Please also note the separate  
documentation enclosed with the battery cubicle.  
After the battery cubicle has been removed from the pallet, first  
remove the rear cover. Now create the electrical connections  
with the enclosed connectors (see also circuit diagram  
X1/X2/X3) and ˆ  
The PROTECT 1.100 is connected to the UPS at the socket ꢁ  
using the special battery connection cable enclosed with the  
UPS, and in the case of the PROTECT 1.150 or  
PROTECT 1.200 with the battery connection cables enclosed  
with the battery cubicle at the terminals ˆ. Make sure to  
observe the terminal block assignment concerning the correct  
polarity "+" and "-" as well as an earth-fault- and short-circuit-  
proof routing, in addition to the proper earthing of the battery  
cubicle.  
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If the battery cubicle is used in connection with the  
PROTECT 1.1.50 or PROTECT 1.200, the strain relief is  
implemented with clamps.  
The battery system can now be activated. To do this, insert the  
two fuses .  
As the last step, fasten each cover that was initially removed.  
Fig.: PROTECT 1.BP20 in connection with the PROTECT 1.100  
PROTECT 1.100 & 1.BP20: When connecting the  
battery connection cable, make sure that the plugs  
are inserted quickly and firmly in the battery  
connectors.  
i
Prepare further PROTECT 1.BP20 battery cubicles as  
described above and then connect them to the terminals ˆ (X2  
and X3) of the previously installed battery cubicle with the  
enclosed battery connection cables. Observe the correct  
polarity "+" and "-" as well as an earth-fault- and short-circuit-  
proof routing during connection.  
5.5  
Mechanical Blocking of PROTECT 1.  
After completing the connection work, fasten the connection  
terminal cover again. At the final installation site, block the  
cubicles against slipping.  
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6 Start-Up  
Compare the setting of the nominal output voltage of the UPS  
with the rated voltage valid in your country. The factory  
presetting is 230 V. Changes to 220 VAC or 240 VAC can be  
made with the software “CompuWatch”.  
Switching on the PROTECT 1. on the mains  
14.  
Make sure that all connections have been made  
according to the installation instructions.  
15.  
16.  
Make sure that all loads are switched off.  
Put the “maintenance switch” manual bypass switch  
(no. 3, p. 27/28) on the back of the UPS back to the  
“USVposition. Next fasten the cover again with the  
4 previously removed screws.  
17.  
18.  
Now insert the back-up fuse in your low-voltage main  
distribution (where the UPS system is connected to the  
mains on the input side) or switch on the  
corresponding line protection switch there.  
Next actuate the mains input miniature circuit  
breakers on the UPS (no. 2, p. 27/28). Move this to  
the "ON" position.  
Factory presetting: The loads are supplied via  
the integrated bypass, which connects the phase  
L1 with the UPS output. Do not switch on your  
loads yet, however.  
i
19.  
20.  
Now switch on the inverter of the UPS. To do this,  
press the ON pushbutton for approx. 2 seconds.  
After switching on, the UPS carries out a self-test,  
during which the LED’s for load and battery state  
go on and off consecutively in increasing order.  
After the successful synchronization of the inverter,  
the Inverter LED lights up a few seconds later,  
whereby the UPS is now in normal operating mode.  
When the mains supply is intact (mains within  
tolerance), the "Line" LED also lights up.  
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Please shut down the entire system again if you  
cannot solve a problem that occurs. To do this,  
press the OFF pushbutton for approx. 2 seconds.  
Disconnect the UPS from the mains by actuating  
the mains input miniature circuit breaker (no. 2,  
p. 27/28). Please contact our hotline (see p. 5).  
i
21.  
When the displays are correctly lit as described,  
switch on your loads one after the other. When  
doing this, take care not to exceed the maximum  
permitted load capacity of the UPS.  
6.1  
Operating Modes  
The following operating modes are distinguished:  
Operation with mains supply (6.1.1)  
Operation with faulty mains supply (6.1.2)  
Operation with faulty inverter (6.1.3)  
Manual bypass (6.1.4)  
6.1.1  
Normal Operation  
Energiefluss bei  
vorhandenem Netz  
Handumgehungspfad  
GR  
WR  
EUE  
Netz  
Netzeingangs-  
sicherungs-  
automat  
Hand-  
umgehung  
Gesicherte  
Schiene:  
Lade GR  
Batterie  
Schematische  
Darstellung  
Verbraucher  
Energiefluss bei vorhandenem Netz  
Power circuit with mains supply  
Handumgehungspfad  
Manual bypass path  
Netz  
Mains  
GR  
REC  
EUE  
SBS  
WR  
INV  
Netzeingangssicherungsautomat  
Schematische Darstellung  
Lade GR  
Mains input miniature circuit breaker  
Schematic diagram  
Load REC  
Batterie  
Battery  
Handumgehung  
Gesicherte Schiene  
Verbraucher  
Manual bypass  
Secured busbar  
Load  
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Once you have connected the UPS to a suitable mains  
connection, you can start operation using the UPS main switch.  
Normally, the UPS operates continuously. The UPS now  
supplies the output with voltage, which is signalled by the mains  
symbol (Line LED) and the inverter symbol (Inverter LED) being  
lit.  
This operating mode, generally referred to as “online” mode,  
ensures the greatest protection, in particular when there are  
mains fluctuations and mains failures, because the loads are  
continuously supplied with reliable and “clean” voltage with no  
interruptions in this operating mode.  
The bar graph LED (LED chain above the pictograph) indicates  
the current capacity utilisation of the UPS in this operating  
mode (see chapter 8, p. 48 ff).  
6.1.2  
Battery Operation / Autonomous Operation  
Energiefluss bei  
gestörtem Netz  
Handumgehungspfad  
GR  
WR  
EUE  
Netz  
Netzeingangs-  
sicherungs-  
automat  
Hand-  
umgehung  
Gesicherte  
Schiene:  
Lade GR  
Batterie  
Schematische  
Darstellung  
Verbraucher  
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Energiefluss bei gestörtem Netz  
Power circuit with faulty mains supply  
Handumgehungspfad  
Manual bypass path  
Netz  
Mains  
GR  
REC  
EUE  
SBS  
WR  
INV  
Netzeingangssicherungsautomat  
Lade GR  
Mains input miniature circuit breaker  
Load REC  
Handumgehung  
Gesicherte Schiene  
Schematische Darstellung  
Batterie  
Manual bypass  
Secured busbar  
Schematic diagram  
Battery  
Verbraucher  
Load  
The mains is not within the required tolerance range or has  
failed. In this case, power is supplied to the inverter from the  
charged battery without interruption. The power supply to the  
loads is therefore also ensured in the event of a mains failure.  
This drains the capacity of the battery and it is discharged. This  
status is signalled by the battery symbol lighting up (Battery  
LED), as well as an intermittent acoustic signal, at first every 4  
seconds and then every second shortly before switching off.  
The initial alarm can be suppressed by pressing the “Alarm off”  
button. The alarm is automatically reactivated when the battery  
capacity decreases. Depending on the expansion level, age  
and condition of the battery and in particular on the load to be  
supplied, the standby time can vary from a few minutes to  
several hours.  
The inverter is switched off if the battery voltage drops below a  
factory-set minimum voltage value.  
Never store the unit in this condition! The discharged battery  
system should be recharged within a week at the latest.  
When the voltage and frequency are within the tolerance range  
again after the mains is restored, the rectifiers switch back on  
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automatically. The supply of the inverter through the mains is  
resumed and the battery charger charges the battery.  
The bar graph LED (LED chain above the pictograph) indicates  
the remaining battery capacity during this operating mode (see  
chapter 8, p. 48 ff).  
6.1.3  
Bypass Operation  
Energiefluss bei  
gestörtem WR  
Handumgehungspfad  
GR  
WR  
EUE  
Netz  
Netzeingangs-  
sicherungs-  
automat  
Hand-  
umgehung  
Gesicherte  
Schiene:  
Lade GR  
Batterie  
Schematische  
Darstellung  
Verbraucher  
Energiefluss bei gestörtem WR  
Power circuit with faulty INV  
Handumgehungspfad  
Manual bypass path  
Netz  
Mains  
GR  
REC  
EUE  
SBS  
WR  
INV  
Netzeingangssicherungsautomat  
Lade GR  
Mains input miniature circuit breaker  
Load REC  
Handumgehung  
Gesicherte Schiene  
Schematische Darstellung  
Batterie  
Manual bypass  
Secured busbar  
Schematic diagram  
Battery  
Verbraucher  
Load  
If the inverter is overloaded or if overtemperature is detected,  
e.g. also if an inverter defect is detected, voltage is supplied to  
the load without interruption via the static bypass switch (SBS)  
that switches on automatically. This is signalled by the Bypass  
LED.  
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Bypass  
Line  
Inverter  
Battery  
This so-called passive redundancy protects against the total  
failure of the voltage supply on the secured busbar; however, in  
this operating mode, mains faults would directly affect the load.  
As a result, the electronics continuously attempt to switch back  
to "online" / normal operating mode (e.g. when the overload or  
overtemperature goes away).  
The bypass consists of an inverse-parallel thyristor stack and  
functions as an extremely rapidly switching link between a load  
and the mains. The synchronization unit ensures that the  
frequency and phase of the inverter voltage is synchronized  
with the mains and can therefore be switched over without  
interruption (within the tolerance limits).  
The bar graph LED functions as the display of  
the UPS capacity utilisation. The acoustic signal  
sounds every 2 seconds during this operating  
mode.  
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6.1.4  
Manual Bypass  
Energiefluss bei aktivierter Handumgehung  
Power circuit with activated manual bypass  
Handumgehungspfad  
Manual bypass path  
Netz  
Mains  
GR  
REC  
EUE  
SBS  
WR  
INV  
Netzeingangssicherungsautomat  
Lade GR  
Mains input miniature circuit breaker  
Load REC  
Handumgehung  
Gesicherte Schiene  
Schematische Darstellung  
Batterie  
Manual bypass  
Secured busbar  
Schematic diagram  
Battery  
Verbraucher  
Load  
The manual bypass enables maintenance and service  
personnel to perform work on the PROTECT 1. without having  
to switch off the load circuit.  
If the current supply fails while the manual  
bypass is active, a total failure of the load supply  
results. For this reason, it should be switched  
back to normal operating mode as soon as  
possible.  
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6.1.5  
Unit overload  
The load on the UPS should never exceed the specified rated load  
of the unit. If a unit overload occurs nevertheless (from 105% of  
the specified unit rated load) then the Fault LED lights up and an  
acoustic signal sounds (twice per second). The connected loads  
continue to be supplied for a certain length of time depending on  
the level of the overload. However, the connected load must be  
reduced without delay.  
Non-observance of the "unit overload" condition may cause the  
total loss of all UPS functions!  
Also avoid short-term unit overloads, which may, for example,  
occur when connecting a laser printer or laser fax machine. Do  
not connect any household appliances or machine tools to the  
UPS.  
Never connect or switch on any additional loads  
to the UPS if there is a mains failure, i.e. if the  
UPS is working in emergency power mode!  
As a rule, if there has never been an overload during normal  
mode, there will not be one in battery mode either.  
When the Fault LED lights up in connection with  
a continuous acoustic signal, this is an indication  
of a deactivating fault. Follow the instructions in  
chapter 0.  
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7 Interfaces and Communication  
7.1  
Computer Interface RS232  
For the control of the UPS and convenient reading of status  
messages and measured values, various interfaces are  
available. The interface protocol is designed for operation with  
the "CompuWatch" shutdown and UPS management software  
from AEG. Use the supplied RS232 communication cable to  
connect your PC. Plug the cable into a corresponding serial port  
on your PC.  
RS232 interface: The RS232 is connected via the 9-pin Sub-D  
socket strip on the back of the unit (no. 8, p. 27/28). Pin  
assignment: 2 = TxD; 3 = RxD; 5 = GND.  
7.2  
Communication Slot  
On the back of the UPS, there is a cover (see p. 27/2828, no.  
7). When this is removed, additional, optionally available  
communication components can be installed there, e.g.:  
AS/400 board: Slot board with status messages, realised via  
potential-free relay contacts  
USB board: Slot board for communication via USB  
SNMP board: Slot board for direct connection of the UPS to  
the Ethernet network with RJ 45 (TCP/IP)  
Details can be found in the description enclosed with the  
particular optional component. Other boards in preparation.  
Using the communication slot deactivates the  
RS232 interface from chapter 7.1.  
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7.3  
Shutdown and UPS Management Software  
The "CompuWatch" software specially developed for these  
purposes by AEG continuously checks the mains supply and  
the UPS status.  
In conjunction with the “intelligent” UPS, this guarantees the  
availability of the EDP components as well as the data security.  
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The "CompuWatch" shutdown software supports different  
operating systems, e.g. Windows 98SE/ME, Windows  
NT/2000/XP, Windows Vista, Linux SUSE, Linux RedHat,  
Novell Netware, IBM AIX, HP-UX, SUN Solaris, Mac OS, and  
others.  
Example of a “CompuWatch” screen  
Refer to the manual on the CD for details about installing the  
software  
on  
the  
various  
operating  
systems.  
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8 Displays and Troubleshooting  
8.1.1  
Signalling  
22.  
23.  
OFF pushbutton Press the button for approx.  
2 seconds to switch off the UPS.  
ON button: Press the button for approx. 2 seconds  
to switch the UPS on.  
Deactivate acoustic alarm: Press the button during  
the alarm for approx. 2 seconds to switch off the  
alarm.  
UPS test: Press this button during normal mode for  
approx. 2 seconds to carry out a UPS self-test.  
24.  
25.  
26.  
Bypass LED: The orange-coloured LED lights up  
when voltage is supplied via the integrated bypass  
of the UPS.  
Inverter LED: The green LED lights up when  
voltage is supplied via the inverter of the UPS  
system.  
Battery LED: The orange-coloured LED lights up  
when power is supplied from the battery system.  
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27.  
Line LED (mains status): The green LED lights up  
when the mains voltage present is within the  
specified tolerance range. If this LED flashes, either  
the UPS connection has an incorrect pin assignment  
(observe phase sequence / neutral conductor  
connection position) or the mains is outside of the  
specified tolerance range.  
28. to 11. Bar graph LED as the measure of the UPS  
capacity utilisation or the remaining battery capacity.  
These LED’s show the current UPS capacity  
utilisation when mains voltage is present (normal  
mode):  
11. Orange LED  
10. Green LED  
9. Green LED  
8. Green LED  
7. Green LED  
96% – 105%  
76% – 95%  
56% – 75%  
36% – 55%  
0% – 35%  
In battery mode, the LED’s indicate the capacity of  
the batteries:  
11. Orange LED  
10. Green LED  
9. Green LED  
8. Green LED  
7. Green LED  
0% – 25%  
26% – 50%  
51% – 75%  
76% – 95%  
96% – 100%  
12.  
Fault LED: The red LED lights up with an acoustic  
warning signal when a fault is present in the UPS  
system.  
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8.1.2  
Overview Table of LED Displays / Acoustic Warning Signals  
LED display (see chapter 8 on page 47)  
Warning  
No. Operating mode  
signal  
0% – 35%  
utilisation  
1
2
none  
none  
none  
none  
none  
36% – 55%  
utilisation  
56% – 75%  
utilisation  
3
76% – 95%  
utilisation  
4
96% – 105%  
utilisation  
5
0% – 20%  
capacity  
1 acoustic  
signal per sec.  
6
21% – 40%  
capacity  
1 acoustic signal  
every 4 seconds  
7
41% – 60%  
capacity  
1 acoustic signal  
every 4 seconds  
8
61% – 80%  
capacity  
1 acoustic signal  
every 4 seconds  
9
81% – 100%  
capacity  
1 acoustic signal  
every 4 seconds  
10  
11  
12  
13  
14  
15  
16  
17  
18  
Load supply via  
bypass of the UPS  
1 acoustic signal  
every 2 minutes  
Unit overload UPS in  
INV mode  
2 acoustic  
signals per sec.  
Unit overload UPS  
in bypass mode  
2 acoustic  
signals per sec.  
Mains abnormal  
Overload in battery  
mode, early warning  
2 acoustic  
signals per sec.  
Overload in battery  
mode, switch-off  
Continuous  
warning signal  
Overtemperature fault  
Inverter fault  
Continuous  
warning signal  
Continuous  
warning signal  
Note:  
= LED lights up  
= LED flashes  
= Display / acoustic signal state undetermined;  
unimportant for displayed operating mode  
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Overview table of LED displays / warning signals, cont.  
LED display (see chapter 8 on page 47)  
Warning  
signal  
No. Operating mode  
Short-circuit output  
side  
Continuous  
warning signal  
19  
BUS voltage  
20  
Continuous  
warning signal  
abnormal  
DC circuit faulty;  
21  
1 acoustic  
signal per sec.  
poss. battery fault  
Battery  
faulty  
charger  
Continuous  
warning signal  
22  
23  
24  
25  
26  
1 acoustic  
signal per sec.  
Fan fault  
Fault in inverter  
output relay  
Continuous  
warning signal  
Communication  
faulty  
Continuous  
warning signal  
Parallel  
fault  
operation  
Continuous  
warning signal  
Note:  
= LED lights up  
= LED flashes  
= Display / acoustic signal state undetermined;  
unimportant for displayed operating mode  
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8.2  
Faults  
PROTECT 1. outputs detailed error messages by means of  
which you or the service personnel can quickly and accurately  
localise and interpret any malfunctions that occur. You can find  
suggestions for action / solutions in the following to correct  
problems using error descriptions according to chapter 8.1.2:  
8.2.1  
Error Messages  
Message / display  
Cause  
Solution  
No display, no acoustic  
signal although system  
is connected to the  
Mains and/or  
Check mains connection  
again. Check the back-  
up fuse and the mains  
input miniature circuit  
breaker as well.  
battery voltage not  
in tolerance range,  
poss. totally  
mains current supply.  
discharged battery.  
Mains OK, but UPS  
does not switch to  
bypass  
PositionMains input Switch mains input  
use is in “OFF”  
position  
miniature circuit breaker  
to “ON”  
“Line” LED flashes and  
“Battery” LED lights up  
Mains voltage  
and/or mains  
Check the mains  
(voltage, frequency)  
frequency are  
outside of tolerance  
“Inverter" LED and  
"Battery" LED light up.  
The acoustic signal  
sounds every 4 seconds  
(operating states 7-10).  
Mains voltage  
supply interrupted.  
Automatic  
switchover to  
battery mode.  
Try to re-establish the  
mains voltage (poss.  
fuse triggered in the  
subdistribution?).When  
the acoustic signal  
sounds every second,  
the battery is almost  
completely discharged.  
Carry out a system  
shutdown of your IT  
equipment at this point  
in time at the latest.  
“Inverter"  
"Battery" LED light up.  
The acoustic signal  
sounds every second  
(operating state no.6).  
LED  
and  
“Fault” LED lights up,  
warning signal sounds  
twice per second (error  
descriptions no. 12/13).  
Overload of the  
UPS System.  
Immediately reduce the  
capacity utilisation of the  
UPS by disconnecting  
part of your loads.  
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Message / display  
Cause  
Solution  
Duration of the  
emergency power  
supply shorter than  
setpoint.  
Batteries not  
completely charged at least the recharging  
/ batteries aged or  
faulty.  
Charge the batteries for  
time acc. to chapter 2.3,  
and check their capacity.  
If the problem remains,  
contact your dealer.  
“Line” LED and “Fault”  
LED light up, continuous  
warning signal (error  
description no. 17).  
Switch-off due to  
UPS internal  
overtemperature  
detection  
Make sure that no  
overload is present, the  
UPS fans are not  
blocked and the ambient  
temperature is in the  
tolerance range. Wait for  
10 min. cooling down  
phase, then switch on  
again.  
Error description no. 19  
Switch-off due to  
short-circuit in UPS  
output  
Correct short-circuit.  
Switch UPS on again,  
connect loads one after  
the other again.  
“Fault” LED lights up,  
“Battery” LED flashes,  
warning signal sounds  
once per second (error  
description 21).  
Fault in DC circuit  
or battery system  
faulty.  
Notify dealer!  
“Fault” LED lights up,  
continuous warning  
signal.  
Fault in the UPS.  
Notify dealer!  
Further diagnoses can also be found in the table list in  
chapter 8.1.2.  
If you cannot solve the problem that has occurred, stop the  
entire procedure, switch off the UPS and disconnect the UPS  
from the mains. Please contact our hotline in this case  
(see p. 5).  
Please have the serial number of the unit as well as the  
purchase date at hand. The hotline will provide you with  
technical support and can inform you about further procedures  
once you have described the problem.  
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9 Parallel Operation  
9.1  
Principle of Operation  
PROTECT 1. has been designed for parallel operation with n+x  
technology (“n” here stands for the number of units required for  
load supply, “x” for the degree of redundancy). Up to 3 units of  
the same type can be connected in parallel here to increase the  
output power and/or achieve higher availability.  
NS Hauptverteilung  
USV Einspeisung  
MI main distribution  
UPS feed  
Parallelfeld  
Unterverteilung  
/
Handumgehung plus USV  
Parallel field / manual bypass plus UPS  
subdistribution  
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This results in the following constellations with n+x technology:  
1 + 0 Use of 1 unit  
1 + 1 Use of 2 units  
1 + 2 Use of 3 units  
2 + 0 Use of 2 units  
2 + 1 Use of 3 units  
3 + 0 Use of 3 units  
max. 10, 15 or  
20 kVA  
No redundancy  
max. 10, 15 or  
20 kVA  
Single redundancy  
max. 10, 15 or  
20 kVA  
Double redundancy  
(max. expansion level)  
max. 20, 30 or  
40 kVA  
No redundancy  
max. 20, 30 or  
40 kVA  
Single redundancy  
(max. expansion level)  
max. 20, 30 or  
40 kVA  
No redundancy (max.  
expansion level)  
The actively redundant parallel operation automatically switches  
to power-increasing operation if the output power requirement  
exceeds the UPS single block power, i.e. the degree of  
redundancy is decreased or is completely eliminated.  
Conversely, the active UPS redundancy degree automatically  
increases again when the power consumption decreases.  
The connection normally takes place in the low-voltage main  
distribution, which also contains the external manual bypass  
and the following subdistribution of connected load circuits.  
Such a parallel board can be purchased in a wall housing incl.  
external HU as well as feeder and load distribution board from  
AEG Power Supply Systems via your specialist dealer.  
9.2  
Set-up / Connection of Parallel Operation Board  
The mains connection of each individual UPS takes place in the  
same way as described in chapter 5.  
The three-phase mains connection secured for  
each UPS must always have the same phase  
sequence, i.e. all UPS units are supplied at the  
input terminals L1, L2 and L3 by the same  
phase each time (no mix!).  
In UPS bypass mode, the phase L1 is used to  
connect the single-phase load with the mains.  
The central external manual bypass, which must  
have an all-pole design, must also be supplied  
by this phase L1.  
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The UPS outputs are each connected with the parallel  
operation busbar via an isolator. The instructions from  
chapter 5 apply here too.  
The following always holds true for the UPS input and output  
conductors: The difference in length in conductors up to 20 m  
per UPS can be max. 20% and max. 10% for lengths > 20 m  
per UPS.  
The jumper installed between “JP1” and “JP2” on the  
connection panel of every UPS at the factory must be removed.  
The UPS output distribution also has to take place according to  
the instructions in chapter 5. In particular, make sure that the  
individual switching elements are correctly labelled, in order to  
prevent operating errors later as well. The communication of  
the units switched in parallel takes place via the 25-pin parallel  
operation cable(s) included in the scope of delivery.  
For this purpose, first remove the parallel port covers  
(no. 5, p. 27/28) and connect the UPS units with each other with  
one parallel operation cable each. Use one parallel operation  
cable for 2 units and two parallel operation cables for 3 units (do  
not create a ring structure!).  
(Communicative) parallel operating connection  
... for 2 units:  
... for 3 units:  
After connecting the parallel operation cables, fasten the  
previously removed parallel port covers. Turn these by 180° so  
that the slot of the cover is facing downwards.  
The hardware-related installation is now complete.  
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9.3  
Operation of the UPS in a parallel system  
The start-up process is uncomplicated, does not require any  
prior knowledge and is basically oriented to the procedure  
described in chapter 6. If you have obtained the parallel  
operation board from AEG Power Supply Systems, you can find  
further special instructions there. The displays in the parallel  
system function the same way as described for the individual  
UPS units in chapter 8.  
9.3.1  
Start-Up  
13.  
Make sure that all connections have been made  
according to the installation instructions.  
14.  
15.  
Make sure that all loads are switched off.  
Make sure that all “maintenance switch” manual  
bypass switches (no. 3, p. 27/28) on the back of  
each UPS are in the “Bypass” position and all mains  
input miniature circuit breakers (no. 2, p. 27/28) on  
the back of each UPS are in the “OFF” position.  
16.  
17.  
18.  
Check the position of the central external manual  
bypass. This must be in the “Bypass” position, i.e.  
supply of the load busbar by the supplying mains.  
Now close all isolators in the output of each UPS,  
i.e. connect the output of each UPS with the parallel  
operation busbar.  
Now insert the back-up fuses in your low-voltage main  
distribution (where the central external manual bypass  
as well as the individual UPS systems are connected  
to the mains on the input side) or switch on the  
corresponding line protection switches there.  
The load supply now takes place via the central  
external manual bypass, and the parallel  
operation busbar is supplied with power via the  
integrated manual bypasses of each UPS.  
However, the parallel operation busbar and load  
busbar are not yet connected to each other at  
this time!  
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19.  
20.  
Now actuate the mains input miniature circuit breakers  
(no. 2, p. 27/28) on each UPS one after the other. Move  
them to the "ON" position.  
Move the “maintenance switch” manual bypass  
switches (no. 3, p. 27/28) on the back of each UPS  
to the “UPS” position. Finally, fasten the covers on  
each UPS again using the 4 respective screws that  
were previously removed.  
The voltage supply of the parallel operation  
busbar now takes place via the integrated  
electronic bypass switches of the UPS systems  
used. Check this operating state on the display  
panel of each UPS = Bypass (chapter 6.1.3).  
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21.  
Now actuate your central external manual bypass:  
Switch from the “Bypass” position to “UPS operation”,  
i.e. connect your load busbar to the UPS parallel  
operation busbar.  
This is done using a manual bypass switch with  
overlapping switching contacts without any  
interruption in the load voltage, i.e. completely  
interruption-free.  
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22.  
Now switch on the inverters of the UPS systems. To  
do this, press the ON pushbutton of each UPS for  
approx. 2 seconds one after the other.  
After switching on, each UPS carries out a self-  
test and synchronizes itself with the parallel  
operation busbar, while the LED’s for load and  
battery state switch on and off consecutively in  
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increasing  
order.  
After  
the  
successful  
synchronization of all inverters, the Inverter LED  
on each UPS lights up a few seconds later,  
whereby the UPS systems now work in parallel  
normal operating mode and supply the parallel  
operation / load busbar with UPS voltage.  
The central external manual bypass switch must  
be protected against accidental actuation. Never  
actuate it when the UPS systems are in inverter  
mode.  
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23.  
When the displays are lit as described, switch on  
your loads one after the other. When doing this, take  
care not to exceed the maximum permitted load  
capacity of the UPS systems. Also take into account  
the reserve capacities if active redundancy should  
be required.  
9.3.2  
Changes to the parallel system  
If you would like to add a UPS to the parallel system or remove  
a UPS from the parallel system, this step is always done by  
returning the UPS systems to BYPASS operating mode.  
Load supply through mains operation!  
(No UPS protection during this measure).  
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First, switch off the inverters of the UPS systems one after the  
other (actuate the “OFF” pushbuttons). All UPS systems  
function in SBS/bypass operation. Check the operating state on  
the operating panels. Next, active the integrated manual  
bypasses (no. 3, p. 27/28) on the back of each UPS. To do this,  
first remove the 4 screws of the covers on the back.  
Put the mains input miniature circuit breakers of each UPS (no. 2,  
p. 27/28) to “OFF” position. Use your central external manual  
bypass to bypass the loads, i.e. activate the bypass operation and  
remove the load supply from the UPS busbar.  
The voltage of each UPS is disconnected in its low-voltage  
main distribution. You can now expand or reduce your parallel  
system. Pay attention to the jumpers “JP1” / “JP2” and the  
parallel operation cables. The subsequent start-up is carried out  
as described in chapter 9.3.1.  
If you only want to switch off a UPS in the  
parallel system, press the “OFF” pushbutton  
twice in succession to do this. In this way,  
individual UPS systems can be disconnected  
from the parallel operation busbar.  
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10 Maintenance  
The PROTECT 1. consists of state-of-the-art, non-wearing  
components. We do, however, recommend visual checks  
(above all battery and fan checks) at regular intervals (at least  
every 6 months) to maintain continuous availability and  
operational reliability.  
CAUTION!  
Ensure that the work area is cordoned off and  
always observe the safety instructions!  
10.1  
Charging the Battery  
The battery is automatically charged when the mains is  
connected, irrespective of the operating mode. This is signalled  
by the Load LED’s lighting up (see also chapter 4.4.2).  
The complete charging time of the battery after a long  
discharge time depends especially on the number of additional  
external battery units (see chapter 2.3).  
10.2  
Checks  
The following maintenance work should be performed:  
Task  
Interval  
Described in  
Chapter 10.2.1  
Chapter 0 / 0  
Visual check  
Battery/fan check  
6 months  
6 months  
10.2.1 Visual Check  
When visually inspecting the unit, check whether …  
there is any mechanical damage or foreign bodies can be  
found in the system,  
any conductive dirt or dust has accumulated in the unit,  
accumulation of dust affects heat supply and dissipation.  
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CAUTION!  
PROTECT 1. must be disconnected from the  
power supply prior to carrying out the following  
work.  
If large quantities of dust have accumulated, the unit should, as  
a precaution, be cleaned with dry compressed air, in order to  
ensure adequate heat dissipation.  
The intervals at which visual checks should be performed are  
largely determined by the site conditions.  
10.2.2 Checking the Battery  
Progressive ageing of the battery system can be detected by  
regular capacity checks. Every months, perform  
6
measurements to compare the achievable standby times, e.g.  
by simulating a mains failure. In this case, the load should  
always have approximately the same capacity demand. Please  
contact our hotline if the time drops drastically compared to the  
previous measurement (see p. 5).  
10.2.3 Fan Check  
Regularly check the fans for dust build-up and noticeably  
untypical noise development. Blocked intake openings must be  
cleaned. In the case of unusually loud or uneven running,  
please contact our hotline (see p. 5).  
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11 Storage, Dismantling and Disposal  
11.1  
Storage  
Long storage times without charging or  
discharging the battery at regular intervals may  
lead to permanent damage of the battery.  
If the battery is stored at room temperature (20 C to 30 C), it will  
automatically discharge at a rate of 3-6% per month due to  
internal reactions. Storing the battery at temperatures above  
room temperature should be avoided.  
A
high storage  
temperature also means greater battery self-discharge.  
Batteries that are stored at room temperature should be  
recharged every six months to maintain their full capacity and  
service life.  
Connect PROTECT 1. to the mains before  
putting it into storage, in order to make sure that  
the battery is fully charged. The charging time  
should at least match the time specified in  
chapter 10.1.  
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11.2  
11.3  
Dismantling  
The system is dismantled in reverse order of the installation  
instructions.  
Disposal  
In the interest of environmental protection and recycling, please  
dispose of the individual system components in accordance  
with the regulations and legal guidelines when permanently  
taking the system out of operation. Please consider that  
infringements to these regulations may result in prosecution.  
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12 List of Terms  
12.1  
Technical terminology  
DC/DC booster  
Circuit technology for increasing a DC voltage to a  
higher voltage level  
SBS  
Static Bypass Switch  
Appliance protection  
Term from overvoltage technology  
Classic mains overvoltage protection consists of a  
lightning surge arrester (class B), overvoltage protection  
(class C) and, finally, the so-called appliance protection  
(“TRABTECH” topic)  
IGBT  
Insulated Gate Bipolar Transistor  
The latest design of high-performance transistors with  
minimum control power requirement (MOSFET  
structure) and minimum losses on the output side  
(structure of a bipolar transistor)  
Class D  
LED  
See appliance protection  
Light Emitting Diode  
Electronic semi-conductor component, commonly  
referred to as an LED, used for optic signalling.  
PFC  
Power Factor Correction  
Circuit technology for minimising system disturbances  
(particularly important when connecting non-linear  
loads)  
PWM  
Pulse Width Modulation  
Here: circuit technology for generating a sinusoidal  
voltage of the highest quality from an existing DC  
voltage  
SNMP  
VFD  
Simple Network Management Protocol  
A protocol encountered frequently in networks for  
managing handling components  
/
Output Voltage and Frequency Dependent on mains  
supply. The UPS output is dependent on mains voltage  
and frequency fluctuations. Earlier designation:  
OFFLINE  
VI  
Output Voltage Independent from mains supply  
The UPS output is dependent on mains frequency  
fluctuations, but the mains voltage is prepared by  
electronic / passive voltage control units. Earlier  
designation: LINE-INTERACTIVE  
VFI  
Output Voltage and Frequency Independent from mains  
supply. The UPS output is independent of mains voltage  
and frequency fluctuations. Earlier designation: ONLINE  
63  
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Guarantee Certificate  
Type: …….……………….…......................................................  
Unit number: ………….…..……………...............................:::::::  
Date of purchase: ……………………...........…………………….  
Dealer stamp / signature  
Errors and changes excepted.  
AEG Power Supply Systems GmbH  
Emil-Siepmann-Straße 32  
D-59581 Warstein-Belecke  
Germany  
Operating Instructions  
BAL 8000019452 EN  
AEG0707DE  
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