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rail | power line
Energy storage for railway applications
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Energy storage for railway applications
All storage technologies from a single source Since 30 years HOPPECKE has been your partner for efficient systems solutions in the railway sector and is best prepared for the require-ments of the future. One partner for all technologies – this means the best solution for every customer requirement.
HOPPECKE provides: Lead-acid batteries widely used in the railway sector. Proven and still unique FNC technology. The highest technological standard in the alkaline range, the
nickel metal hydride technologie (NiMH). For trend-setting developments in the railway sector, HOPPECKE
keeps ready innovative developments of Li-Ion battery systems.
CertificationsThe HOPPECKE products are manufactured in due consideration of the international standards for quality, safety and environment.
For every application the right battery HOPPECKE offers a wide range of cells, batteries and complete solutions, which are used in the most varied applications for rail vehicles and in power ranges required in the national and internati-onal rail use. The installation options are manifold, whether it is roof assembly or underfloor installation or installation inside the train – we construct and manufacture your individual energy system.
Please find further information concerning railway battery systems in the HOPPECKE brochure rail | systemizer.
Performance: IEC 60623 UIC 854 EN 60254 EN 60896 GOST
Quality/Safety: ISO 9001 IRIS OHSAS 18001 EN 50126 EN 50155
Mechanics: EN 12663 IEC 61373 EN 15085, ASTM
Fire Safety: EN 45545 NFF 16101-16102 DIN 5510 NFPA 130 UNI IEC 11170-3
Environment: ISO 14001
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rail | power The HOPPECKE battery technologies
rail | power Lead-acid technology
Cost efficient battery for standard rail auxiliary supply
Advanced HOPPECKE standard in quality and technology
Complete systems with vented or valve regulated batteries (VRLA)
rail | power FNC NiCd technology
Technologically advanced battery for demanding requirements
Longer life and higher cyclic endurance for railway applications even under conditions of extreme temperature
Wide variety of energy-to- power ratios for optimum adaptation to customers‘ needs
rail | power XNH NiMH technology
Most advanced alkaline cell technology for industrial applications
Longest life and highest cyclic endurance for railway applications
Meets highest demands concerning battery volume and weight
rail | power LiOn Li-Ion technology
Highest energy and power density High cycle life for both full and partial cycles Extremely low self-discharge
Please find a complete overview of the HOPPECKE rail application series on page 12.
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rail | power Valve regulated lead-acid battery
Established and proven technology for railway vehicles
Gas- and electrolyte-tight terminals as well as the integrated back-fire protection assure an optimal operational safety. The use of HOPPECKE system connectors, which in the assembly stage already provide increased short- circuit security, contribute to this. The plastic-insulated lead-poles contain brass inlets and thus assure the good high-current capability. The batteries are built in cases of stable polypropylene or ABS. They are resistant against shock and vibration stress, which are well beyond the relevant requirements for rail batteries.
Series
rail | power V Vented lead-acid battery
rail | power V is a long proven technology based on tubular and grid plate electrodes and liquid electrolyte. The electrodes are made of lead-antimon technology. The batteries are built in cases of stable polypropylene. rail | power V work reliably as on-board electrical system batteries in all rail vehicles.
Your advantages with HOPPECKE Available in 6 V and 12 V block battery and 2 V individual cell Usable without problems in the temperature range from
-20° C to +55° C Resistant to deep discharge Design life for 15 years, service life in rail application
up to 8 years High cycle stability, more than 1,500 cycles
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Your advantages with HOPPECKE Available in 6 V and 12 V block battery and 2 V individual cell Maintenance-free regarding water refilling, highest security
over the whole life Integrated backfire protection guarantees optimal operational
safety Usable without problems in the temperature range from
-20° C to +45° C Resistant to deep discharge No „thermal runaway“, no electrolyte coating thanks to ESS Design life 12 years+, service life in rail application up to 6 years High cycle stability, more than 1,500 cycles
Norms / Standards:
IEC EN 60896-21/22
IEC EN 61373
UL94
Important: These curves are only examples for the discharge performance.They must not be used for sizing batteries.
Series
rail | power VR Valve regulated lead-acid batteryInnovative Gel– ESS battery technology
Patented technology on the basis of grid electrodes and a fleece separator. The electrodes are produced with the proven lead-calcium technology. The electrolyte contains gel additives (ESS-technology) and is laid down in the fleece-separator. In this way this technology does not only possess the advantages of the fleece-battery but also those of the gel-battery.
The batteries are built in cases of stable polypropylene or ABS. rail | power VR batteries work reliably as on-board electrical system batteries in all rail vehicles. They are also used as starter battery in diesel vehicles.
Norms / Standards: EN 60254 IEC EN 61373
Discharge Curve rail | power @ 20° C Discharge Curve rail | power @ 0° C
2.2
2.0
1.8
1.6
1.4
1.2
1.00 10 20 30 40 50 60 70 80 90 100
Depth of Discharge (DoD) in % C5
0 10 20 30 40 50 60 70 80 90 100
Depth of Discharge (DoD) in % C5
2.2
2.0
1.8
1.6
1.4
1.2
1.0
Sing
le C
ell V
olta
ge (V
)
Sing
le C
ell V
olta
ge (V
)
0.2 C5 1 C5 5 C5 0.2 C5 1 C5 5 C5
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Series izer Batteriesysteme für Bahnanwendungen
rail | power FNC VStandard series for all applications
No other NiCd technology is better suited for the production of special formats than the fibre structure technology. Its enormous versatility enables us to meet many individual requirements of our customers.
Your advantages with HOPPECKE Can be used universally in the railway sector as starter,
traction or on-board electrical system battery Available with and without automatic filling system Variable cell design:
- High, wide but very narrow - Small cells with a large surface area - Very compact, low cell
rail | power FNCUnparalleled Worldwide – FNC® technology
Since 1983 HOPPECKE has shipped more than 2.5 million FNC® cells to railway clients around the world. This success is based on the many benefits of FNC® technology compared to other energy storage systems.
Your advantages with HOPPECKE Reliable energy supply – due to extremely high cycle stability Long service life – due to the HOPPECKE quality standard Maximum safety – through superior technology Temperature resistant – by best properties under extreme tempe-
rature conditions Low follow-up costs – due to long maintenance intervals
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Series
rail | power FNC VAAdvanced FNC® line of products with internal recombination, extended service cycles
Your advantages with HOPPECKE Lower charging voltage Can be used in the high-current range, for hybrid drive
and for starting applications With all of the benefits of FNC V technology and in addition:
- Improved charge acceptance, higher energy density - Lower water consumption, extended maintenance intervals - Compact and sturdy design - High mechanical stability of all electrochemically active component parts - Much longer service life even under the hardest operating conditions
rail | power FNC VCCompact FNC® line of products with energy density for use where space is restricted
Your advantages with HOPPECKE Lower charging voltage For all train and mass transport applications calling for
maximum performance and capacity Offering all of the benefits of FNC VA technology plus
- Energy density boosted once again at minimum weight
1.4
1.3
1.2
1.1
1.0
0.9
0.8
0.7
0.6
0 10 20 30 40 50 60 70 80 90 100
Depth of Discharge (DoD) in % C5
0.2 C5 1 C5 5 C5
Discharge Curve rail | power FNC @ 20° C Discharge Curve rail | power FNC @ -20° C
1.4
1.3
1.2
1.1
1.0
0.9
0.8
0.7
0.6
0 10 20 30 40 50 60 70 80 90 100
Depth of Discharge (DoD) in % C5
0.2 C5 1 C5 5 C5
Sing
le C
ell V
olta
ge (V
)
Sing
le C
ell V
olta
ge (V
)
Important: These curves are only examples for the discharge performance.They must not be used for sizing batteries.
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rail | power XNHValve regulated cadmium-free alkaline battery technology
High-performance, maintenance-free and long-life nickel-metal hydride battery systems with the rail power XNH technology are available for the railway sector. This technology is based on highly conductive collector materials which serve as a carrier for the active materials, on which the electrode reactions of the positive and the negative electrode take place.
Compared with other alkaline battery technologies, the XNH technology stands out due to the following advantages:
Higher energy and power density Higher cycle lifetime > 3000 capacity performances Cadmium-free Maintenance-free (no water topping up necessary)
rail | power FNHVerschlossene cadmiumfreie alkalische Batterietechnologie
Due to a special design of the cells and an intelligent system configuration, railway-specific requirements can be fulfilled to a particular degree:
High current-carrying capacity and quick-charge capability due to a low internal resistance
Thermal stability of the entire system due to high thermal capacity of the cell and thermal management designed specifically suitable for the application
Operating temperature range - 20° C to + 45° C
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Series
rail | power XNH VR Valve regulated cadmium-free alkaline battery technology
The valve regulated XNH technology that appears particularly effec-tive in the hybridization of drive trains and in the equipping of trains for partially catenary-free travel, requires a guided charging pro-cess that is secured by a suitable battery management system (BMS, rail | control). Moreover, in the BMS, data and information about the battery system are collected, processed and transmitted to superior controls in the vehicle.
Your advantages with HOPPECKE Constant availability of especially safety-related systems in
the railway sector is ensured XNH technology can also be used in the conventional applications
of the railway sector (diesel starting and on-board electrical system battery)
Important: These curves are only examples for the discharge performance.They must not be used for sizing batteries.
1.5
1.4
1.3
1.2
1.1
1.0
0.9
0.8
Sing
le C
ell V
olta
ge (V
)
0 10 20 30 40 50 60 70 80 90 100
Depth of Discharge (DoD) in % C5
0.2 C5 1 C5 5 C5
Discharge Curve rail | power XNH @ 20° C
1.5
1.4
1.2
1.1
1.3
1.0
0.9
0.8
Sing
le C
ell V
olta
ge (V
)
0 10 20 30 40 50 60 70 80 90 100
Depth of Discharge (DoD) in % C5
Discharge Curve rail | power XNH mit 1 C5
0 °C -10 °C -20 °C
1C 0°C
DOD 0,2C 25°C cell 11[%] [V1]0,00 1,3850,02 1,3120,05 1,3090,07 1,3070,10 1,3060,12 1,3050,15 1,3040,17 1,3040,20 1,3030,22 1,3020,25 1,3020,27 1,3010,29 1,30,32 1,30,34 1,2990,37 1,2990,39 1,2980,42 1,2980,44 1,2970,47 1,2960,49 1,2960,52 1,2950,54 1,2950,57 1,2950,59 1,2940,61 1,2930,64 1,2930,66 1,2920,69 1,2920,71 1,2920,74 1,2910,76 1,2910,79 1,290,81 1,290,84 1,2890,86 1,2890,88 1,2880,91 1,2880,93 1,2880,96 1,2870,98 1,2871,01 1,2861,03 1,2861,06 1,2851,08 1,2851,11 1,2851,13 1,2841,16 1,2841,18 1,2831,20 1,2831,23 1,2821,25 1,2821,28 1,2821,30 1,2811,33 1,2811,35 1,2811,38 1,281,40 1,281,43 1,281,45 1,2791,47 1,2791,50 1,2781,52 1,2781,55 1,2781,57 1,2771,60 1,2771,62 1,2761,65 1,2761,67 1,2761,70 1,2751,72 1,2751,75 1,2751,77 1,2741,79 1,2741,82 1,2741,84 1,2731,87 1,2731,89 1,2731,92 1,2721,94 1,2721,97 1,2721,99 1,2722,02 1,2712,04 1,2712,06 1,2712,09 1,272,11 1,272,14 1,2692,16 1,2692,19 1,2692,21 1,2682,24 1,2682,26 1,2682,29 1,2672,31 1,2672,34 1,2672,36 1,2672,38 1,2662,41 1,2662,43 1,2662,46 1,2662,48 1,2652,51 1,265
0,0
0,2
0,4
0,6
0,8
1,0
1,2
1,4
1,6
0 10 20 30 40 50 60 70 80 90 100
Sing
le C
ell V
olta
ge [V
]
Depth of Discharge (DoD) in % C5
Discharge Curves rail | power FNH with 1 C5
0°C -10°C -20°C
0,0
0,2
0,4
0,6
0,8
1,0
1,2
1,4
1,6
0 10 20 30 40 50 60 70 80 90 100
Zells
pann
ung
[V]
Entladetiefe (DoD) in % C5
Entladekurve rail | power FNH mit 1 C5
0°C -10°C -20°C
1C 0°C
DOD 0,2C 25°C cell 11[%] [V1]0,00 1,3850,02 1,3120,05 1,3090,07 1,3070,10 1,3060,12 1,3050,15 1,3040,17 1,3040,20 1,3030,22 1,3020,25 1,3020,27 1,3010,29 1,30,32 1,30,34 1,2990,37 1,2990,39 1,2980,42 1,2980,44 1,2970,47 1,2960,49 1,2960,52 1,2950,54 1,2950,57 1,2950,59 1,2940,61 1,2930,64 1,2930,66 1,2920,69 1,2920,71 1,2920,74 1,2910,76 1,2910,79 1,290,81 1,290,84 1,2890,86 1,2890,88 1,2880,91 1,2880,93 1,2880,96 1,2870,98 1,2871,01 1,2861,03 1,2861,06 1,2851,08 1,2851,11 1,2851,13 1,2841,16 1,2841,18 1,2831,20 1,2831,23 1,2821,25 1,2821,28 1,2821,30 1,2811,33 1,2811,35 1,2811,38 1,281,40 1,281,43 1,281,45 1,2791,47 1,2791,50 1,2781,52 1,2781,55 1,2781,57 1,2771,60 1,2771,62 1,2761,65 1,2761,67 1,2761,70 1,2751,72 1,2751,75 1,2751,77 1,2741,79 1,2741,82 1,2741,84 1,2731,87 1,2731,89 1,2731,92 1,2721,94 1,2721,97 1,2721,99 1,2722,02 1,2712,04 1,2712,06 1,2712,09 1,272,11 1,272,14 1,2692,16 1,2692,19 1,2692,21 1,2682,24 1,2682,26 1,2682,29 1,2672,31 1,2672,34 1,2672,36 1,2672,38 1,2662,41 1,2662,43 1,2662,46 1,2662,48 1,2652,51 1,265
0,0
0,2
0,4
0,6
0,8
1,0
1,2
1,4
1,6
0 10 20 30 40 50 60 70 80 90 100
Sing
le C
ell V
olta
ge [V
]
Depth of Discharge (DoD) in % C5
Discharge Curves rail | power FNH with 1 C5
0°C -10°C -20°C
0,0
0,2
0,4
0,6
0,8
1,0
1,2
1,4
1,6
0 10 20 30 40 50 60 70 80 90 100
Zells
pann
ung
[V]
Entladetiefe (DoD) in % C5
Entladekurve rail | power FNH mit 1 C5
0°C -10°C -20°C
1C 0°C
DOD 0,2C 25°C cell 11[%] [V1]0,00 1,3850,02 1,3120,05 1,3090,07 1,3070,10 1,3060,12 1,3050,15 1,3040,17 1,3040,20 1,3030,22 1,3020,25 1,3020,27 1,3010,29 1,30,32 1,30,34 1,2990,37 1,2990,39 1,2980,42 1,2980,44 1,2970,47 1,2960,49 1,2960,52 1,2950,54 1,2950,57 1,2950,59 1,2940,61 1,2930,64 1,2930,66 1,2920,69 1,2920,71 1,2920,74 1,2910,76 1,2910,79 1,290,81 1,290,84 1,2890,86 1,2890,88 1,2880,91 1,2880,93 1,2880,96 1,2870,98 1,2871,01 1,2861,03 1,2861,06 1,2851,08 1,2851,11 1,2851,13 1,2841,16 1,2841,18 1,2831,20 1,2831,23 1,2821,25 1,2821,28 1,2821,30 1,2811,33 1,2811,35 1,2811,38 1,281,40 1,281,43 1,281,45 1,2791,47 1,2791,50 1,2781,52 1,2781,55 1,2781,57 1,2771,60 1,2771,62 1,2761,65 1,2761,67 1,2761,70 1,2751,72 1,2751,75 1,2751,77 1,2741,79 1,2741,82 1,2741,84 1,2731,87 1,2731,89 1,2731,92 1,2721,94 1,2721,97 1,2721,99 1,2722,02 1,2712,04 1,2712,06 1,2712,09 1,272,11 1,272,14 1,2692,16 1,2692,19 1,2692,21 1,2682,24 1,2682,26 1,2682,29 1,2672,31 1,2672,34 1,2672,36 1,2672,38 1,2662,41 1,2662,43 1,2662,46 1,2662,48 1,2652,51 1,265
0,0
0,2
0,4
0,6
0,8
1,0
1,2
1,4
1,6
0 10 20 30 40 50 60 70 80 90 100
Sing
le C
ell V
olta
ge [V
]
Depth of Discharge (DoD) in % C5
Discharge Curves rail | power FNH with 1 C5
0°C -10°C -20°C
0,0
0,2
0,4
0,6
0,8
1,0
1,2
1,4
1,6
0 10 20 30 40 50 60 70 80 90 100
Zells
pann
ung
[V]
Entladetiefe (DoD) in % C5
Entladekurve rail | power FNH mit 1 C5
0°C -10°C -20°C
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rail | systemizer Batteriesysteme für Bahnanwendungen
HOPPECKE lithium-ion basic modules have to pass extremely strict quality controls. Moreover, HOPPECKE lithium-ion modules are also UN38.3 (“Transport of lithium batteries”) and CE certified. Working closely with various certification bodies and test laboratories allows us to achieve application-specific system certifications for you. High IP protection classes can be achieved through the design and construc-tion of suitable outer packaging (tubs, containers).
rail | power LiOnThe highest energy density combined with maximum performance
HOPPECKE lithium-ion battery systems have a modular structure and are comprised of 24 V or 133 V basic modules. These basic units are designed in such a way that they can be used as individual blocks or installed as a group consisting of several modules to form a larger battery system. The lithium-ion modules are available in High Energy (with high energy content) or High Power (with high power density) versions.
Your advantages with HOPPECKE Highly flexible due to modular system structure Highest possible level of operational safety thanks to integrated
HOPPECKE battery management system Long cycle life – up to 3,500 cycles at 80% depth of discharge Compact dimensions and lightweight structure due to high
energy and power density Excellent failure safety through intelligent parallel connection
of modules
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Series
rail | power LiOn 24 VStandard basic modules for all applications
Your advantages with HOPPECKE Capable of modular interconnection up to 48 V Intrinsic safety function by means of single cell measuring
and integrated battery management system State calculation of state-of-charge and state-of-health CAN-based communication function for the transfer of the
status data Single cell balancing function: adjustment of the charge state
of the cells by means of “intelligent balancing”
rail | power LiOn 133 VStandard basic modules specifically for applications with high system voltages
Your advantages with HOPPECKE Capable of modular interconnection to battery systems
up to MWh Integrated battery management system Voltage-proof up to 1,000 V Quick chargeable, with a high load capacity Active and passive heating or cooling for optimal performance
Important: These curves are only examples for the discharge performance.They must not be used for sizing batteries.
4.3
4.1
3.9
3.7
3.5
3.3
3.1
2.9
2.7
Sing
le C
ell V
olta
ge (V
)
0 10 20 30 40 50 60 70 80 90 100
Depth of Discharge (DoD) in % C5
1 C5 5 C5 25 C5
Discharge Curve rail | power LiOn @ 20° C
4.3
4.1
3.9
3.7
3.5
3.3
3.1
2.9
2.7
Sing
le C
ell V
olta
ge (V
)
0 10 20 30 40 50 60 70 80 90 100
Depth of Discharge (DoD) in % C5
-20 °C -10° C 0° C
Discharge Curve rail | power LiOn with 5 C5
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Series overviewCells and batteries
Format rail | power V L 2V
Dimensions L [mm] B [mm] H [mm]
47 up to 191198
370 up to 432
Capacity [Ah] 120 up to 800
Weight [kg] 8,0 up to 42,4
rail | power VVented lead-acid battery
Format rail | power VR M 12 V rail | power VR M 12 V FT rail | power VR M 6 V rail | power VR M 2 V (front connector)
Dimensions L [mm] B [mm] H [mm]
267 up to 344170 up to 177190 up to 275
541125
217 up to 302
242 up to 308170275
88,5 up to 181154 up to 181
310
Capacity [Ah] 58 up to 113 105 up to 168 170 up to 220 238 up to 417
Weight [kg] 23 up to 42.3 39 up to 59.8 32.7 up to 44,6 15.1 up to 25.8
rail | power VRValve regulated lead-acid batteryInnovative Gel– ESS battery technology
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Dimensions L [mm] B [mm] H [mm]
39 up to 115122309
92 up to 115194309
77 up to 157158405
Performance L rail | power FNC V L 2 rail | power FNC V L 3 rail | power FNC V L 4
Capacity [Ah] 40 up to 220 200 up to 370 150 up to 560
Weight [kg] 2.15 up to 6.8 8.45 up to 11.1 7.35 up to 16.9
Performance M rail | power FNC V M 2 rail | power FNC V M 3 rail | power FNC V M 4
Capacity [Ah] 40 up to 200 200 up to 335 150 up to 490
Weight [kg] 2.15 up to 7.0 8.7 up to 11.45 7.7 up to 17.1
Performance H rail | power FNC V H 2 rail | power FNC V H 3
Capacity [Ah] 35 up to 150 140 up to 265
Weight [kg] 2.3 up to 7.5 8.45 up to 11.5
Performance X rail | power FNC V X 2 rail | power FNC V X 3
Capacity [Ah] 25 up to 115 130 up to 200
Weight [kg] 2.4 up to 7.5 9.0 up to 12.1
rail | power FNC VFNC (NiCd) - Standard series for all applications
Format 2Format 3
Format 2
14
Series overview Cells and batteries
Performance H rail | power FNC VA H 2
Performance X rail | power FNC VA X 2
Dimensions L [mm] B [mm] H [mm]
39 up to 115122309
39 up to 115122309
Capacity [Ah] 38 up to 190 32 up to 170
Weight [kg] 2.6 up to 8.1 3.15 up to 8.9
rail | power FNC VAAdvanced FNC® line of products with internal recombination, extended service cycles
Performance M rail | power FNC VC M 2
Dimensions L [mm] B [mm] H [mm]
47 up to 115122309
Capacity [Ah] 80 up to 220
Weight [kg] 3.4 up to 8.2
rail | power FNC VCCompact FNC® line of products with energy density for use where space is restricted
Format 2
Format 2 Format 2
15
rail | power XNH VR H
Dimensions L [mm] B [mm] H [mm]
47 up to 115122306
Capacity [Ah] 80 up to 225
Weight [kg] 3.6 up to 9.2
rail | power XNH Valve regulated cadmium-free alkaline battery technology
rail | power LiOn 133 V X
Dimensions L [mm] B [mm] H [mm]
600250290
Capacity [Ah] 46
Weight [kg] 55
rail | power LiOn 133 V Standard basic modules specifically for applications with high system voltages
rail | power LiOn 24 V H rail | power LiOn 24 V X
Dimensions L [mm] B [mm] H [mm]
228122289
228122289
Capacity [Ah] 50 40
Weight [kg] 11.5 10.5
rail | power LiOn 24 V Standard basic modules for all applications
Format 2
16
HOPPECKE Batterie Systeme GmbH
Bontkirchener Str. 1
D-59929 Brilon-Hoppecke
Tel.: +49 (0) 2963 61-1412
Fax: +49 (0) 2963 61-1451
E-Mail: [email protected]
www.hoppecke.com 09/2
015
DE
rai
l | p
ow
er li
ne
All
deta
ils
in th
is b
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are
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8
HOPPECKE GmbH & Co. KG
Bontkirchener Str. 1
D - 59929 Brilon
Tel: +49 (0) 2963 61-0
Fax: +49 (0) 2963 61-449
E-Mail: [email protected]
You can purchase the HOPPECKE
storage systems at selected retail
stores. Current sales information
can be found at www.hoppecke.com
www.hoppecke.com
05/2
015
EN
su
n | p
ow
erpa
ck
All
deta
ils
in th
is b
roch
ure
are
base
d o
n st
ate-
of-
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art t
echn
olo
gy.
Our
pro
duct
s ar
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con
stan
t dev
elo
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e th
eref
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