Marathon L
Marathon L
Marathon L
Marathon L
Reliable and safe energy in long-term storage.
Specifications
This well-proven battery
system guarantees safety at all times.
Specifications
2
More power for standby power.
Applications
3
Technical characteristics and data
Type Part number Nominal Capacity Length* Width* Height* Weight Internal Terminal
voltage C 20 C 10 C1 (l) (b/w) (h) resistance
1.8 V/C 1.8 V/C 1.6 V/C acc. to
20°C 20°C 20°C approx. IEC 896-2
Standard V Ah Ah Ah mm mm mm kg mΩ
L12V15 NALL120015HM0MA 12 14.4 14.0 9.9 181 76 167 6.5 14.00 M-M6
L12V24 NALL120024HM0MA 12 24.5 23.0 15.5 168 127 174 10.0 10.00 M-M6
L12V32 NALL120032HM0MA 12 33.0 31.5 21.4 198 168 175 13.5 8.00 M-M6
L12V42 NALL120042HM0MB 12 44.0 42.0 29.4 234 169 190 18.5 7.00 M-M6
L12V55 NALL120055HM0MB 12 58.0 55.0 36.0 272 166 190 22.0 5.80 M-M6
L12V80 NALL120080HM0MA 12 84.0 80.0 51.2 359 172 226 30.0 4.20 M-M8
L6V110 NALL060110HM0MA 6 118.0 112.0 75.5 272 166 190 23.0 1.60 M-M8
L6V160 NALL060160HM0MA 6 170.0 162.0 111.5 359 171 226 31.5 1.30 M-M8
L2V220 NALL020220HM0MA 2 236.0 220.0 150.0 208 135 282 16.0 0.35 M-M12
L2V270 NALL020270HM0MA 2 289.0 270.0 183.0 208 135 282 18.3 0.28 M-M12
L2V320 NALL020320HM0MA 2 346.0 320.0 225.0 208 201 282 24.2 0.22 2xM-M12
L2V375 NALL020375HM0MA 2 404.0 375.0 262.0 208 201 282 26.5 0.18 2xM-M12
L2V425 NALL020425HM0MA 2 456.0 425.0 291.0 208 201 282 28.8 0.15 2xM-M12
L2V470 NALL020470HM0MA 2 507.0 470.0 324.0 208 270 282 32.6 0.14 2xM-M12
L2V520 NALL020520HM0MA 2 559.0 520.0 357.0 208 270 282 35.0 0.13 2xM-M12
L2V575 NALL020575HM0MA 2 618.0 575.0 394.0 208 270 282 37.3 0.11 2xM-M12
* +/-1mm
= Polypropylene (PP)
UL 94-V0
= Polypropylene (PP)
6 Nm 8 Nm 25 Nm
4
Dimensions
(h) (h)
L12V15 (h) L12V24 L12V32 L12V42 (h)
(b/w)
(b/w) (b/w) (b/w)
- +
(h) (h)
(h) L12V80 L6V110 (h) L6V160
L12V55
(b/w)
(b/w) (b/w) (b/w)
L2V220 (h)
L2V320 (h) L2V470 (h)
L2V270 L2V375 L2V520
L2V425 L2V575
(b/w)
(b/w)
(b/w)
Not to scale! 5
Technical data at a glance
For continuous charging we recommend a voltage of 2.27 V/cell Recharging time in relation to initial charging current. For
at 20°C. The charging voltage must be compensated to the 2.27 V/cell at 20°C.
curve for a continuously different battery ambient temperature.
Available capacity in relation to the ambient temperature. Self-discharge in relation to the storage temperature.
6
Constant current discharge
7
Constant current discharge
8
Constant current discharge
9
Constant current discharge
10
Constant power discharge
11
Constant power discharge
12
Constant power discharge
13
Constant power discharge
14
Notes
15
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