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Thats not what he said. Different units. Check my math, "3% of 82kwh is 100wh". No. If he said running a 100W blulb for 24 hours is the equivalent of 3% of an 82kWh battery then yes, that is correct. He left some steps and information out.Multiply by 24 hours = 2.88%, i.e. 3%.
Thats not what he said. Different units. Check my math, "3% of 82kwh is 100wh". No. If he said running a 100W blulb for 24 hours is the equivalent of 3% of an 82kWh battery then yes, that is correct. He left some steps and information out.
Yes, @MDElectric abbreviated his response. You can't directly relate 82kWh (energy) to 100W (power) unless you know how long the power was being used, i.e. 24 hours.but 3% of an 82 kWh battery is ~100 Wh, so there's essentially a 100W incandescent bulb running 24 hrs a day in your car.
But it’s over over 24 hrs so I should have said continuous 100W load. Same result. Like burning 100W bulb all day.3% of 82000Wh (82kWh) is 2460Wh (2.46kWh). 100Wh is 0.12%.
No, 100Wh is exactly that. 100 watt hours. That’s what he typed. His equation uses wh then later on uses the 100w bulb analogy. The first part should be 3% of an 82kwh battery is 2.4kwh which is essentially a 100w bulb burning for 24 hours. He said to check his math and for the equation he posted, it was wrong. There’s nothing wrong with being wrong. Especially if you ask people to check your math. Just own it. We get what he was trying to say but the math of the equation presented to the board was wrong.Yes, @MDElectric abbreviated his response. You can't directly relate 82kWh (energy) to 100W (power) unless you know how long the power was being used, i.e. 24 hours.
That might be true. Before I turned off Sentry mode, I could see a loss of 8% to 10% per day (depending upon temperature). So camera heaters might be the reason for the variance.… if your MY is really losing 3% charge a day, then it might be discernable by looking for something warm in your car. As an example, I took this pic with the Sentry On, showing that some of it's power usage is running the defrost on the cameras. Also noticed that each of the fender and door cameras start to heat up too (just because they're electronic--not intentionally).
Do you use any third party software like TeslaFi? Or anything else that would be accessing your car remotely and causing it to not sleep? On the flip side, TeslaFi has a feature to make sure your car sleeps so it can have benefits as well.That might be true. Before I turned off Sentry mode, I could see a loss of 8% to 10% per day (depending upon temperature). So camera heaters might be the reason for the variance.
But now that I closed Sentry mode and closed the Tesla app on my iPhone, I’m still losing around 3% per day. It would be nice to understand why.
I use TeslaFi and only lose 1% a night or less when unplugged. The cool thing is TeslaFi will show how much the car is sleeping at night. Ours generally sleeps all night with no interruptions.Do you use any third party software like TeslaFi? Or anything else that would be accessing your car remotely and causing it to not sleep? On the flip side, TeslaFi has a feature to make sure your car sleeps so it can have benefits as well.
Parked at the airport (JFK) and left it there for a week and only lost 1%. Didn’t open the app or wake the car, sentry mode was off.Congrats to you on only using 1%.
I've left my Model Y parked in my garage (where Sentry is off) and it ticks 2-3% off a day.
I don’t have any other applications open, though I once used Stats but haven’t opened that app in many months. I’ve never used Teslafi.Do you use any third party software like TeslaFi? Or anything else that would be accessing your car remotely and causing it to not sleep? On the flip side, TeslaFi has a feature to make sure your car sleeps so it can have benefits as well.
Do you have walk away lock on? Is your phone stored close enough to your car that it will never lock?
If you're talking about EPA range ratings and EPA testing, no, it's not.The 300+ mile range is calculated at 50 miles per hour on flat ground with no weather.
This winter, when it has been cold (overnight) inside my garage, I have noticed that the % state of charge (SOC) of the battery is 3% lower than when I parked my Tesla Model Y. This is prior to preconditioning. I attribute this to the Tesla battery management system applying an algorithm to adjust the state of charge, estimated range downwards due to the cold. I don't use Sentry mode at home. I only started to see this after installing one of the updates.Friday night to Saturday noon my state of charge went from 41% to 38%.
If you're talking about EPA range ratings and EPA testing, no, it's not.
See pointers at Ioniq 5 vs Model Y. You can see the test schedules at Detailed Test Information with the graphs as to what speed the vehicle is supposed to be at for a given point in time for each cycle. The highest average speed for any of the test cycles is 48.4 mph. None of them are steady state at 50 mph and they aren't done on a real road either.
So would your hypothesis be: Pull car with X% (warm) battery into cold garage, then 24 hrs later battery is cold and Tesla adjusts % available miles left down by ~3%. So this wouldn't keep happening if you left it in garage for another 2-3 days, and might go back up if temperature in garage warmed up. Someone get a space heater for jcanoe! Interesting theory for WindPower's observation.This winter, when it has been cold (overnight) inside my garage, I have noticed that the % state of charge (SOC) of the battery is 3% lower than when I parked my Tesla Model Y.
It happened this A.M., parked with 81% and Model Y woke up via app with 78%. I will continue to monitor this as the days and nights get warmer.So would your hypothesis be: Pull car with X% (warm) battery into cold garage, then 24 hrs later battery is cold and Tesla adjusts % available miles left down by ~3%. So this wouldn't keep happening if you left it in garage for another 2-3 days, and might go back up if temperature in garage warmed up. Someone get a space heater for jcanoe! Interesting theory for WindPower's observation.
So would your hypothesis be: Pull car with X% (warm) battery into cold garage, then 24 hrs later battery is cold and Tesla adjusts % available miles left down by ~3%. So this wouldn't keep happening if you left it in garage for another 2-3 days, and might go back up if temperature in garage warmed up. Someone get a space heater for jcanoe! Interesting theory for WindPower's observation.
Maybe. We’d need to run some experiments to find out if the loss of SOC overnight is real or just due to an algorithm.I attribute this to the Tesla battery management system applying an algorithm to adjust the state of charge, estimated range downwards due to the cold