PRESERVING OF BATTERY'S LIFESPAN:
It is highly recommended to charge the battery in full immediately after purchasing your e-bike.
The charger must be disconnected from the electricity and the battery after the charging process is
completed.
The battery must not be left empty for more than 24 hours, if the battery is left uncharged for too
long it may reach a state in which it is no longer chargeable.
If you know that the bicycle will not be in use for a long period of time, the battery should be
charged in full, separated from
Average battery lifespan depends on its use and on its conditions. Even with proper care,
rechargeable batteries do not last forever. This battery model will last between 700-1000 charging
cycles. A partial charge/discharge counts fractionally against those numbers. Running the battery
down halfway and then recharging it completely, uses up to one half of a charge cycle.
IMPORTANT!
The battery cells are discharged autonomously, once the battery is left unused for
a prolonged period. In cases battery cells are left low charged for a long period of time, their
charge cycles and capacity will diminish, and the quality of the battery will be damaged. The
battery should be left fully charged if it is not to be used for a prolonged period.
FACTORS INFLUENCING THE E-BIKE RANGE:
1. Rolling resistance of the tires. CRUSSIS e-bikes are fitted with low rolling resistance tires,
however it is crucial to keep the tires inflated properly according to manufacturer pressure charts.
2.Weight of the e-bike. The lower weight of the e-bike, the rider and the load carried, the greater
the range.
3.Battery status. It depends on whether the battery was fully charged before your trip. It is also to
be expected that the higher the number of discharge cycles the battery has undergone, the smaller
capacity it has. the surface, the shorter the range.
4. Profile and surface of the track. The higher the elevation difference and the steeper hills you
negotiate and the worse the surface, the shorter the range will be.
5.Riding mode. It depends on which of the three riding modes you have set.
6.Continuity of riding. The more braking and acceleration, the shorter the range.
7.Air resistance. For example, it depends on whether we ride a bicycle with a low frame and
sitting upright or whether we ride a sporty bicycle with the seat set to the same height as the
handlebars.
8.Wind strength. The stronger the wind we have in the back, the longer the range and vice versa.
9.Weight of the rider and load. The greater the weight, the shorter the range. 10.External
temperature. The lower the temperature, the less battery capacity can be used while riding.