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E x c e l l e n t T e c h n o l o g y , E f f i c i e n c y a n
d Q u a l i t y
World Class Charging Systems
NaturalResourc
es
EnergyEffic
iency
CO2
Industrial DesignsHighly efficient charging systems
specifically for industrial requirements!
Particular benefits:
Extreme high power density and thus low floor
space requirements at the installation site
Possibility for different system combinations inconfined
spaces.
Special ventilation concept for protecting the power
supply from dust and dirt
Excellent efficiency up to 95 %
Reduction of the required mains power through
sinusoidal current consumption
Remote monitoring option
An optimally smoothed charging current extends the
life of the traction battery
Large charging status traffic light for good visibility
BELATRON TCBELATRON IS
BEALTRON IS and BELATRON TC charging systems
Perfection for industrial applications
BELATRON IS and BELATRON TC are high efficiency charging
systems
built into cabinets designed for industrial applications.
In opposite to the BELATRON IS type with single output, the
modular
design of the BELATRON TC range with multiple outputs allows
indivi-
dual configurations of max. 12 charging modules with different
outputvoltages and currents.
Due to the high power density and the modular design BELATRON
TC
chargers offer a lower footprint at the installation site.
For control, monitoring and remote maintenance BENNING provides
a
high quality monitoring system.
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NaturalReso
urc
es
EnergyEffic
iency
CO2
ISO14001
ISO9001
NaturalResourc
es
EnergyE
fficie
ncy
CO2SCC
9000
8000
7000
6000
5000
4000
3000
2000
1000
0
4500
4000
3500
3000
2500
2000
1500
1000
500
0
[kWh] [kg]
online
Special Measures for protection against acidic air, dirt and
dust
Electronic chargers can be affected by dust, conductive dirt or
acidic air.
BENNING takes this very seriously and uses only coated printed
circuit boards for the
BELATRON high efficiency charging systems. Also a special
designed airflow concept
was designed to avoid corrosion on electronic components.
CO2-emissionsEnergy consumption
24 V / 150 A
48 V / 120 A
24
V/50A
24
V/120A
48
V/50A
48
V/60A
80 V / 170 A
Connection
Less electrical energy consumption and less CO2 emission
BELATRON high efficiency charging systems reduce the TCO and
make an im-
portant contribution to climate protection.
As the result of their excellent efficiency (up to 95%) and
charge characteristic
with optimized charge factor, BELATRON high efficiency systems
need 25% less electrical
energy and less CO2 Emission compared with traditional chargers
(see fig. 1).
25% less electrical energy will significantly reduce the TCO
(Total Cost of Ownership ) and
the Return-On-Invest is achieved more quickly.
Fig. 1: Annual energy consumption and CO2emission when charging
a
48 V 500 Ah traction battery (240 charges per year)
A: Conventional charger
B: BELATRON high-efficiency charging system
Individual configuration options for your battery charge
location (Fig. 3)
With this modular concept, up to 12 charging units 48 V / 60 A
or 6 charging units
48 V / 120 A or 3 charging units 80 V / 170 A can be housed (see
fig. 3). Naturally, dif-
ferent charging systems can be combined. Ideal for confined
spaces, i.e. in industrial
battery charging rooms.
Remote monitoring and analysis
The monitoring software is highly comprehensive making
control
and remote maintenance of the charging systems both on site
and
from a remote control station possible.
Connection can be via internet or LAN/WLAN. Usage of this
software
enables an even more efficient and rational application of all
charging
stations as well as the maintenance and service personnel.
Overview of all charging events:
Optimum usage of the charging resources
Remote reading of the charging parameters
Notification in case of charge state change
Remote maintenance
BENNING Elektrotechnik und Elektronik GmbH & Co.KG
Mnsterstr. 135 - 137 46397 BOCHOLT
Tel.: +49(0)28 71/ 93-0 Fax: +49 (0) 2871 / 9 3297
E-Mail: [email protected] www.benning.de
Electricalenergy
Kohlendioxid
(CO
2)
10034564
.00GB
04/2011
pausDesign&Medien,
Bocholt
Subjecttoalterations.
Printedonchlorinefreepaper.
Fig. 2 : Remote monitoring on site or from a decentralised
control station Fig. 3: Individual configuration possibilities of
the BEALTRON TC industrial system
Energy
consumption
CO2-
Emissions
