You may have read from my other posts that I have been contemplating upgrading voltage, even adding a booster pack or anything else.
I currently have some really good torque arms made up. It is just a matter of getting everything right first, getting some other parts in before installing them.
I love the concept of an ebike, and I have an idea of what I would love, but the thing is the actual ebike I have now hasn't reached that point...yet.
My expectations are no grander than the majority of people here at Endless Sphere for a decent ebike.
I want to add some Big Apple Schwalbe tires to make for a cushier ride. I am currently sporting Schwalbe Marathon Pluses at 26" x 1.75" and they feel awful.
I am using a 36V 4.2Ah NiMH pack. My controller gives 20A, but can range from 15-25A. The hub motor is a 408, rear, which is a Crystalyte brushless motor.
I don't hate ebikes, I just hate the way mine is currently. Ideally, I would like to ebike around for a few hours, exploring, then go home, all while being powered by the ebike motor and battery, and not having to pedal unless I wanted to. I train with a road bike utilizing only glucose and glycogen, but would like to have a "funner" bike that can let me explore and wander without a physical stress or strain. It is a way to complement my bike experience.
I am starting to think that a LiFePO4 pack with the same voltage and Ah will be more powerful than a similar pack in NiMH, is this true? If so, how is this realized?
Regarding Maslow's theory, on my ebike, I feel like I am on the bottom two levels of the triangle. I would like to ride the ebike as though I were near the top levels. By another analogy, I feel like I am riding a very old, and unreliable ICE motorcycle, that is all rusted over, and has a weak engine that I need to kick off the ground to get started, and it doesn't travel very fast, or accelerate really well either. And it seems, I would be happier with a more powerful ICE motorcycle, probably in the year 2000-2007 range, accelerates better, and abolishes my concerns of it not being fast enough.
Another little annoyance is having to connect all the wires each time, from the motor, and throttle to the controller. I would like to solve this by having my controller more or less permanently installed onto the frame of my ebike. I would like to accomplish this while preventing theft, discouraging theft (e.g. out of sight, out of mind), and protected from the rain and elements. One idea I have is welding a loop of wire or a metal ring onto the controller, so that I can run a Kryptonite lock wire through this loop. Then I would use zip ties to latch the controller onto the frame, then put some sort of rain cover over it, and duct tape the rain cover, and electrical tape all around it to seal it from the weather.
I hope this clarifies my situation a bit more. I would really like to enjoy my ebike and this is where I hope to make the adjustments.
Can anyone shed some light on what the range would be at full throttle (48V 20A) using a Ping 48V, 12Ah LiFePO4 battery, and a Ping 48V, 20Ah LiFePO4 battery?
I am trying to save some money for a better battery, but at the same time, I need to come up with quite a sizeable sum for motorcycle gear, as I am doing my MSF course soon, and will have to have the right equipment for that, which would run close to $1000, plus about $400-$500 for the cost of the MSF course.
Also, to keep costs down, wrt Andys post, I was considering and Avid BB7 for the front as well, but it would cost me a whole new wheel, as well as the brakes themselves. I have decided on upgrading my brake pads however to Koolstops. There is actually plenty of braking power using my V-Brakes, since they belong to a quality mountain bike with a front suspension.
