these speed limits are easily circumvented and some bikes are designed to make that possible
the acceleration of an e-bike is way higher, which means that riders can get going at very high speeds in tight spaces where regular bikers couldn’t.
A better solution might be capping the power output of the rider and motor combined at something like 300W (ie a good sustained effort for a strong cyclist), and disabling power assist if the rider breaks that threshold.
A better solution might be capping the power output of the rider and motor combined at something like 300W (ie a good sustained effort for a strong cyclist), and disabling power assist if the rider breaks that threshold.
This is almost exactly what is done in the country I live in and it seems to work, the only difference being that it’s capped at 250w rather than 300w
So that’s what I was trying to say, but I should have been clearer lol
What difference does it make if e-bikes are restricted to a speed that the average “analog” bike can easily do though?
A better solution might be capping the power output of the rider and motor combined at something like 300W (ie a good sustained effort for a strong cyclist), and disabling power assist if the rider breaks that threshold.
This is almost exactly what is done in the country I live in and it seems to work, the only difference being that it’s capped at 250w rather than 300w
So that’s what I was trying to say, but I should have been clearer lol