Sounds good. I totally believe you but humans are the problem. I've seen people take out a can of WD40 or other spray oil and just soak a chain with it...as soon as they start riding it's slinging everywhere and they remain clueless. I would even agree that Darwin is just chiming in when these people can't stop and go right into the back of a truck but something that lawyers love to create litigation income from. Lawyers really don't consider facts or true fault...they just seek litigation.
www.greenbikekit.com
FYI, popular PAS sensors are generally less than 20 bucks....
Sure, but we won't bother with cheap "plastic magnet ring" cadence PAS on a bike like this. We've all ridden that sort of thing, and ridden real torque-cadence PAS systems, and know it's worth it to do it right.
Not necessarily.
talesontwowheels.com
Agreed, a properly set up Ultra is going to be tough to beat. Just keep in mind that your "perfect setup" may not be acceptable to all. They need to be tunable by the end user so that different priorities can be taken into account!!!!!
Those "cheap plastic magnet rings" work just fine on about anything. It's the controller programming that's absolute junk in most that don't work right. Get that programming right, and about any PAS sensor will work just fine. You just don't need anything real exotic to serve that purpose....
Is there a cadence-based PAS that is not just an on/off switch for assist per the mode setting like level 1 = 200W, Level 2 - 300W, etc. I have not ridden one that actually provides varied assist based on the crank RPM except for the Izip Express which actually used a small motor as a generator to feed the controller.
Wow. Given the average rider access to the assist programming. Most people don't know how to use a screw driver which is why Bosch, Brose, Yamaha, etc. would never consider this.
The biggest brand (Bosch - who is really a much bigger car parts producer) wrote the legislation to keep ebikes recreational.
A PAS sensor supplies the controller with a pulse every time a magnet passes the sensor. That's it. That's all ANY of them do. Makes no difference what system we're talking about or what it cost.
A torque sensor is a PAS sensor and at least that signal is used as a variable control for assist and not just an on/off switch like a cadence only based system. I think one of the things that bothers me the most is that People for Bikes considers all PAS ebikes as being the same thing. Then their 3-class system isolates a throttle-assist as something different because the EU didn't allow them and a few trail managers consider them the same as a motorcycle (not a lot of synapses being used). When you call your organization a bike advocacy group maybe you should know a little bit about ebikes before taking lobby money to promote bad legislation. The sad thing is that so many ebike riders never take the time to think about this legislation that impacts them and they just drink the koolaid that it's a good system.
I would respectfully disagree. EVERY bike has a PAS sensor, including those with a torque sensor. You can't say every bike has a torque sensor. Bikes with and without torque sensors are generally worlds apart when it comes to controller programming.
Yes the Bafang BBS* provides varied assistance depending on how far below the set cadence you are pedaling.
No, every ebike does not have a PAS sensor as you just claimed. There are ebikes with throttle-assist only (no PAS sensors).
Sounds like a bike you could just ghost pedal in 1st gear given that assist level is only dependent on cadence. That is very much how my Izip Espress performs but it has a small generator at the crank that provides a variable voltage to the controller to substitute for throttle input to the controller.
