Smithery
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- Oct 16, 2020
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To be fair...I actually hate Tesla's approach here and think it presents safety issues. Basically, Tesla regen handling is wildly different depending on temperature and state of charge. No regen at 100%, limited regen in the cold, etc.
Tesla did not make the decision to limit regen when the battery is cold: Physics did.
Tesla did not make the decision to limit regen when the battery is full: Physics did.
Cars engine braking with automatic transmissions have had literally the exact same problems we're discussing with regen.It seems like a better solution would be to have a fixed deceleration factor that matches "maximum regen," and to introduce mechanical brakes as needed to match that if temperature/SoC factors prevent maximum regen. That way the driver's expectations can be constant.
Low engine speed in a high gear when you take your foot off the gas? Very mild engine braking.
High engine speed in a low gear when you take your foot off the gas? *SIGNIFICANT* engine braking.
And everything in between. And these variables come up with almost every driver almost every day, as opposed to the battery conditions we're discussing.
Nowhere in the history of automatic transmissions has anybody suggested "This is way too variable. We should have the car smartly apply the brakes when the driver takes their foot off the accelerator so the experience is always the same."
Because it simply hasn't been an issue.
Anytime your engineering solution is "a buffer" you haven't solved the problem. You've only made it less likely.Another partial mitigation would be to include enough unusable battery buffer to allow regen even at "maximum charge" in more conditions. This has the helpful side effect of maximizing battery life as well. The downside would be locking drivers out of some of the battery they paid for. Tesla's solution of just asking the customer to set a maximum SoC percentage is good on paper, but not particularly elegant and again offloads the complexity to the driver.
We spend vacation in the mountains then head home to the valley semi-regularly. At least once a year we mismanage the charge before heading home. We'll leave the cabin with battery capacity and therefore with regen, but charge to 100% while still going downhill and have to start using friction brakes.
That's the type of situation an "invisible, inaccessible buffer" brings up.
Not a big deal because we're familiar with the phenomenon day-to-day, but would be a HUGE surprise if it *only* happened once or twice a year while going downhill.
Tesla has never - not once - told me to not charge my car to 100%. I've looked before on the website, the manual, and in-car UI. They don't ever say that.(Another upside to a proper battery buffer would be excluding range that you never/rarely get to use from the EPA calculations - Tesla sells you 300 miles of range and then asks you to subtract 30-60 miles to maintain battery health, which sucks even if the logic pans out.)
They say not to leave the car charged at 100%.
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So basically, to offer a differing opinion...
I would be livid at Rivian if they decided to not give me full regen most of the time just because it might be variable some of the time.
And I would also be livid if they hid usable battery capacity from me to solve a problem that doesn't exist.
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