hi flecc..
yes, this was also what i was thinking..
(specially because iam conditioned by rc-modellflying with currents of 100-200A and there always trying to keep wires as short as possible)
i used the tool from Gerd Giese
HERE:
http://www.elektromodellflug.de/Uploads/Ltg_bg_V1.xls
its German, but you only need to fill in 4 cells:
line 2: the length of the wire (only one wire counts, you don´t need to double)
line 3: the cross section of the wire in mm²
line 4: the innerrestistance of the connector (see list:
Elektromodellflug - Hochstromstecker )
line 5: you don´t need to change this
line 6: part of the result
line 7: the max. current that can happen (e.g. 20A for an ebike)
line 8: the RESULT: the amount of volts that are lost through the wire
so:
when i mount the box in the saddle-bag i have about 120cm more wire-length than mounting it like on the foto in front..
so: 1,2m wirelength means:
with 1mm² wire and 15A current: 0.66Volt lost
with 1,5mm² wire and 15A current: 0.44Volt lost
with 2,5mm² wire and 15A current: 0.27Volt lost
so: on a hilly section with my 33Volt and 15A max. current
i will see another 0.66Volt loose when i mount the controller in the saddle-bag
so about 2% less power compared to mounting in front
on normal driving in flat area with less current (7A):
with 1mm² wire and 7A current: 0.31Volt lost
with 1,5mm² wire and 7A current: 0.21Volt lost
with 2,5mm² wire and 7A current: 0.13Volt lost
so about 1% less power compared to mounting in front
or: instead of 231Watt it would be 229Watt
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i see with this:
wirelength seems to be much much less critically than in our rc-modells (with often low voltage, e.g. 10Volt and high currents, e.g. 200A)
so it even appears to me, that 1mm² would be enough and looses are far less than 1Volt
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so the mainreason for mounting would be: were does it look best
is this correct so far ?
or do i have a big mistake in my thoughts ?
