Setok
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It’s not necessarily fair to say it is 2WD. A Model 3 mostly is, but I’m not sure what Cybertruck’s implementation is. It might be that in offroad mode it will default to sending the same torque to both axles. That means that less per wheel torque is required to get the vehicle moving, which means less likely for each vehicle to slip (which is why full time 4WD is useful).Yep that pretty much sums it up.
A mechanical lock on both front and rear (and middle if you have a middle diff like most full time 4x4) means each wheel is turning synchronized with each other wheel, regardless of if that wheel has traction or not.
Most importantly this means that every bit of forward thrust produced by the wheels is produced at the same time and at the same speed. Wheel torque is distributed in "real-time" and only offset by the amount of twist and slack in the driveshafts.
Consider this scenario: If you would have a 4 wheel vehicle, and two of the wheels spin at say 10RPM and the other two at 15RPM, then what is the rate of forward motion? Sometimes 10 or 15RPM, but not 12.5RPM, meaning that the faster wheels are working against the slower ones.
Now with a motor per wheel the "syncronisation" of the wheels should technically be possible, but to do so means you need very high sensor feedback to modulate the motor inverter output to match the torque load on each wheel. This would have to be in the ms control loop range. A locking differential on each the front and rear motor on a DM CT, would be much simpler and likely perform better than a QM in low speed rock crawling situations with high wheel articulation, however, in other off-road conditions, a QM with torque vectoring would operate better when you need more wheel slip and need to steer.
In the end from a control perspective, so long you can basically "look" (aka sense) at the ground in relation to the vehicle, and see what direction and velocity you have, you should be able to calculate exactly the wheel position from a rotary encoder etc, and steering angle sensor, and then use the motor controller to observe current (torque) and then limit switching frequency to lock in a rpm that matches what movement it is doing across the ground. This will however only work if it can maintain the right amount of torque per wheel, so it's likely that either a high ratio gearing needs to be used per wheel (like a portal axle) or that it is a high power motor that can achieve full torque at low RPM.
This differs considerably in complexity from a normal ICE, with just one motor and a low range gear, where with lockers you can have every bit of torque from the engine going to any one wheel or any combination of them in an instant mechanically. That's why if you have a how power ICE you can snap shafts.
Technically, without lockers, a dual motor Cybertruck is only a 2WD, with one front and one rear driven wheel only. A Tri-motor is only 3WD without locker, and only a QM is really 4WD. Traction control really doesn't cut it, but for many less serious users they probably won't know how it is meant to be, so unless they experience lockers wouldn't understand just how much better they are.
My suspension comments also come into consideration here as well, because if you can't get your wheels on the ground, you really don't have a 4x4 anyway. More like a AWD. But even there, my son has a modded sub 4sec WRX, and that comes standard with a rear LSD to get that power down. So definitely useful.
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