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OK, thanks! That makes sense. I guess I just didn't understand the statement:
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Simple and short, my opinion on braking.
BL motor braking: (most likely mechanics) first: a shorted motor has incredible resistance from turning, and, the faster it spins, the more resistance it has. - Using full motor shorting for braking would undoubtedly flip an R/C car over it's lid with ease. - So, you need to control this shorting in order to control the motor shaft resistance, to create an average resistance or torque. -Along came PWM... the controller sets up the FET's to unify all motor phases to create a short. So the controller will change PWM duty cycle depending on throttle position... so anywhere between say 1% to 95% (for ABS, guessing) duty cycle for proportional braking. -These latest controllers (like the Quark) most likely have some good algorithms for braking. This is just my simple theory on motor braking, not going into detail what happens in FET's. :025: |
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thanks, i tried :)
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I agree with zpb. I'd also like to raise another question on this talk of ABS...
ABS is an abbreviation for Antilock Braking System. By saying antilock one assumes that there is a mechanism in place to detect when locking occurs so that action can be taken to avoid it. Do ESCs even do this detection? I have a suspicion they do not, and I also think that they don't really need to. As ZPB already pointed out, a motor's braking force increases with RPM assuming a constant shorting resistance across its poles. This leads me to think that ABS would be unnecessary in a brushless braking system as the motor itself naturally applies less braking force as it slows down. The only time I can see ABS being of value is if there were devices monitoring the rotation of the wheels themself so that braking force could be released if only one wheel locked (while the diff action kept the motor spinning). What do you all think? |
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Yeah, it's not true ABS (like the Quark), it's just the controllers algorithm controlling it. It knows how fast the rotor is spinning, etc.... there is a minimum rpm the motor can spin when shorted anyways.
It is quite simple how it would 'detect' the rotor rpm, it's just a matter of making a good algorithm to do some braking magic. I imagine that controllers only use a fraction of the motor braking resistance. |
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Of course controllers do simple things, we do not have individual sensors and brakes per wheel, but idea is the same. And check your last statement, because it is the motor which stops the vehicle not the ESC or Battery |
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The software engineers of the controllers are putting 'assumptions' into the algorithms, if you catch what I mean? It's hard to explain this. But also, maybe it's monitoring current levels, and there is a max?
A simple braking alg. would prob do some pretty decent braking effect. But who knows how sophisticated they are, or maybe they are simpler than one might think? |
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