Should I be charging my EV to 90% each day if I only drive a short distance?

PLEASE NOTE:
This information is intended for EV owners who only drive a short distance each day and then plug in each night. The data presented only applies to ternary type lithium batteries (e.g. NMC), not Lithium Iron Phosphate (LFPO). If that isn't your situation then don't waste your time watching or posting irrelevant comments.
Also note that a "DST Cycle" referred to in the Battery University study means one discharge and recharge to the levels specified in the test (e.g 75% - 65% SOC). However the industry term "cycle", when used to predict battery life, means one transition from fully charged to fully discharged and back to fully charged. So there would be 10 X 75% - 65% events before one charge "cycle" is clocked against the battery's lifetime cycle count.
While the science may seem complex the key message is simple:
- You don't need to change your lifestyle or stress about your battery
- You can keep driving as you do currently and plugging in each night so your car is always ready at the start of the day
- If you simply lower the maximum State of Charge (SOC) from 90% to something more appropriate, like 60% this can enhance the longevity of your battery. This is because the battery spends less time standing with a high SOC.
Lastly, I am not telling anyone what they should do, just presenting the science. In the end it's your car and your choice how you charge your EV. Have a great day ! 🙂

I own my model P85 for 10 years already. Not a sign of battery degradation because I never charge above 80 %. When I don't use my car for a while it stays on 50%. Then when I am going for a trip I charge the power I need for this particulary trip.
Sometimes I supercharge up to 80% to heat the battery to
get a temperature to remove condensation and water out of the battery pack. Corrosion in the electronics also damages it.
Still super satisfied with my Tesla after 100.000 miles.

I think the math is a little off here. Since let's say your commute is the 10% you're talking about. If you would do the 100-25% charge, you can drive for 7,5 days before charging (so 7,5*1000/365=20 years), while with the orange line you need to charge daily. So if you look at it that way the light blue and pink are the best modes 5*3000/365=40 years or 3*5000 which is the same. 40 years seems very unrealistic to me, since you will have so degradation over time itself (storage). So all in all I don't think the factory 80-25 is all that bad. Maybe 75-25 or 75-40 might be bit better. I now charged up to 80% so I think I'll set it to 75 instead. My commute takes a bit more of the batter though, about 15%.

I've been looking into this question for a week now and finally came across some actual data! Thanks!

In our training from GM for the Bolt EUV we have been told to recommend to customers that they use the moto ABC: Always-Be-Charging. Their explanation was that the car will manage the battery temperature while the car is parked. One fellow on CZcams has a short video showing his Bolt expelling excess heat during a very hot day. His car wasn't running, just plugged in. So while not charging everyday may be a good idea that would be only when the outside temperature is neither too hot or too cold. At least where GMs are concerned.
Charging to a lower level most of the time seems to be a good idea that most agree on. My cell phone has a battery management setting that you can switch on and it limits the charge to 85%. This is meant to increase battery life (Samsung phone).
I drive a Bolt EUV and have set my maximum charge at 80%. I may lower that to 75%. I also use slow charging as it seems to be recommended by most.
Thanks for the video. I found it most useful. In addition, the comments left by some viewers also contributed to my battery education.

Great video. Thank you so much for your work on this. Leaving a comment to show my appreciation, and also to express that for a very technical subject, this video gives a perfect explanation and context of how to optimize your EV's battery life. Cheer my friend. Thanks again!

Thank you, Mark. An excellent piece of reporting with a clear conclusion which is easy to implement. I will start this immediately.

Great info! Thanks 4 taking the time 2 make this video. God Bless!

Very helpful - just wanted to say thank you for finding and highlighting this research

A lithium-ion battery is happy between 25% and 80% SOC. However the BMS needs to know the extremes as well so do go to them occasionally. It is okay to charge to 100% but it is bad not to use this first 10-20% shortly after: like if a battery being under stress while fully charged: the shorter we leave it in that condition, the better. So please just charge to 100% the night before occasional long distance trips.

Thanks for that interesting information. And .. saw your T-Shirt of The Smashing Pumpkins and thought, well that's something from my youth and find some good old songs again on youtube. Sad that I can only give you one Thumbs Up instead of two :)

Excellent video! Extremely useful for those of us contemplating the purchase of our first BEV; gives us an idea of how to charge for maximum battery life. Many thanks!

WOW. I've heard some of this info before, but this is the most in-depth explanation. THANK YOU for putting this all together for us!!!

Thank you for this information. Very useful. I’m now trying to keep my SOC between 40%-60%….so re-charge when the SOC is close to 40%. This works for me as i tend to drive less than 20 miles each day. It make sense that the battery is “happiest” around 50% SOC. I’m also avoiding fast chargers when possible.

Really interesting... thanks for your research and clear summary. My charging routine was to use the 80-20% range but after this, i’m going to follow your recommandation. Apart of course when i’m doing à road trip. Then i slowly charge to 100% during the night befor departure, and using my obd connector, capture the capacity of the battery so that i can follow up battery degradation. ( i have a mustang mach e with edtended battery)

Very valuable information. I have owned a model Y for almost 3 years and have been reviewing charging advice videos. This is the best one I’ve seen by far. Thank you.

Great video. I feel you nailed in your sum up and what you are personally doing with the 40 - 60% cycle, a pity that study didn't include that or even 45 - 55%. I think this rule of thumb would also be great for someone who can only charge by fast charger, if they are also an urban dweller whose commute is short, then they could do this just once or twice a week for probably only ten minutes a time and end up way better off than those who fast charge huge depth all the time.
Also I'd be very interested to see the results if it was dialled back even more to say 20 - 40%, the battery is charging very quickly at this stage because it is under virtually no stress. Could be even better than that mid range.
Just an amateur thinking out loud here :)

Spot on!
We LOVE having plenty of fuel in the tank with an ICE car. We also LOVE having plenty of charge in the battery for an EV, but for the majority of us that’s complete overkill.
HOWEVER keeping the max charge below 65% to 70% is always going to be much better for the battery …. and even more so in hot climates.
If you must fill it, don’t leave it there for long, drive immediately.
If you arrive home near empty, charge it to at least 20% immediately.

I was charging to 80% and then only charging when less than 50%. Since, on my daily commute, I always came in right at about 50%, I am going to only charge up to 70% and see how it goes. I am also intrigued by potentially charging at a lower rate too. I can recharge in two hours, but I have 8 hours to do it in over night so am giving that a try too. Thanks for the food for thought.

Thank you for your hard work and very clear presentation! Thanks also to your source.

Thanks for sharing this. My daily commute is 30kms through motorway which means I don't really need to worry about battery range. I can also recharge less often, keeping within ideal state of charge.

The magenta (75%-45%) most closely represents my usage cycle and I charge twice a week which = 43 years (I'll be 106 years old)
btw - the warranty is 80% and I had a starting capacity of 331 miles so at 90% I still have 300 miles of range & (80% = 270 miles) which is still quite usable

This is good advice. Keeping the EV battery balanced is the best for longevity. I got a 14 year old Prius and can monitor the battery charge level. Toyota seems to keep the battery between 45 and 60% charged. It is still running well on the original battery.

Thanks for putting this explanation together. It's easy to follow and is well supported by evidence.

Thanks for this interesting video. My Megane e-Tech EV60 is always charged at 80% and when the percentage is down to 60,50 or 40%, I charge at home with 7 kWh (32A). After one year, Renault told me the battery is of 98% capacity. Now, after hearing what you told, I’ll switch fom 80 to 75%.

Excellent points, Mark.....thanks for doing the hard work to investigate the subject. I would add though that it is important to prriodically charge to 100% SOC, in order for the battery management system in most cars to perform cell balancing. Perhaps adopting a routine that the first day of each month, you charge to 100% using level 1 or 2 charge point, and return to your regular routine for the rest of the month, would preserve battery maintenance and maximize service life. Thanks again for doing this.

Great eye opener.. Thank you for uploading this video.

Fantastic video and high quality content! 👍👍

Were we live and work, lots of people travel over 100 miles per day. So my Leaf, uses 75 to 80% per day. Current at 48000 miles. And the car came with extra warranty on the battery.

You omitted the fact that part of this 'precautions' are already done by the BMS auromatically. If you charge to 100%, this is not really 100%, as the battery physically has 8% or so more capacity, which is 'fenced off' by programming in the BMS. Similar at the low end...

Fantastic video. I have been following the electric car scene for yours and this is the first detailed analysis of battery management I have seen explained like this. This is great. If you give the Electric Viking a wink I am sure he will publicise this excellent information to a wider audience.

Very interesting. I only use my model Y once a month and this is the first video I've seen about how to maximize your battery life; other than the usual recommendation of keeping it between 20 and 80%.

Also important to remember that most manufacturers don’t allow you to use the entire battery. So 100% is not really 100% and 75% is not really 75%

Been basing my model 3 LR off the 75%-25% line, and the battery is doing well, the car is at about 110,000 miles in 4 years. Just plug it in every night, and every morning it's at 75%, much less than is needed for a typical day.

Thanks for the video. I have used the Battery University's advice with my Lead acid batteries. They have so lasted over 10 years.

Great video! Exactly the information i was looking for. The doubt about what is the best practice to keep my Tesla battery healthy for longer was turning in my head for a while 👍

A significant variable to degradation is also depth of discharge (DOD). Avoiding large depth of discharge prevents expansion and contraction of the electrodes which leads to cracking. A DOD 10% to 20% has a little impact on battery degradation above 20% has increasing impact. 20% of discharge provides very little degradation above 10%, but provides twice the mileage driven. Therefore the ideal charging range is in fact 40 to 60%, pushing this to 30 to 70% may be ideal for most peoples practical usage with the additional small degradation being worth the increased usability.

This is good information. I drive my Ioniq 5 about 40 km daily and charge level 2 free at work several times weekly. I think it is reasonable to lower my end charging a bit, dropping from 80% to 70% with a goal to keep the battery between 40-70% state of charge. My understanding is that the Ioniq 5 needs to be above 40% state of charge to recharge the 12 volt battery. Thanks for posting this.

I put over 250,000 miles on 4 plug-in hybrids over the last 10 years. They had a built-in battery buffer of 20%, so that "100%" charged/full was actually only charging up 80% of the battery. The result was that none of the PHEVs showed ANY visible loss of range during the time that I had them. Granted, because 20% of the battery capacity was not shown to the driver, they could have lost up to 20% of their capacity without it being seen. But they also could have actually lost minimal battery capacity over the years of daily driving and charging (L2) use.

Thank you so much for putting this information out there.

Interesting my BYD has a 60KWhr LiFePO blade battery configured 126S1P.
The recommendation is to charge it to 100% once per week. Our daily driving during the week uses about 60%. Consequently we slow charge it (AC3KW) each Sunday (mainly using solar panels) to 100%.
We only fast charge on trips, typically at the 50KW rate. Under fast charging, charging efficiency and rates decrease markedly over 85%, with a good deal of energy lost as heat. So when fast charging we normally stop at 80-90%, particularly if the weather is warm. The BMS rolls the fast charge back anyway over 90%.
On trips we mainly operate between 15% and 90% for an effective range of 300km between top ups. On routes we mostly drive, this works well.
So far we have not detected any battery degradation.

This is the most useful information I ve got about optimum state of charge . Sincere thanks from a fresh Astra E owner

I'm glad I found stumbled on this video. I have been charging my 2024 Tesla Model 3 long range as recommended to 80% SOC every day for about a month since purchasing it. Furthermore, I travel a little over 50 miles a day in my case, and sometimes a bit more if I have to run errands or something. After watching this, I'm going to be limiting to 70% for daily use, since even on days that I would travel over that 50 miles, I would rarely drop below 65% to 60% SOC (so keeping in line with about a 15% to 20% discharge cycle). I also happen to live in a pretty hot and humid climate, being in the Southern United States, where we see daily average temperatures anywhere from low 80s to high 90s right now. Thank you for the informative video and excellent commentary!

Thank you. It kind of fits what I knew about batteries (storage % voltage for batteries waiting to be shipped and sold by battery companies is 65%). Until now I was charging my car at 80% every day (Model Y 2023, Long Range). Now, I will charge my car to 60%, use 3% to get to work, it will stay on parking at work and lose 2% more during the day (sentry mode usage-security), then lose another 3% on its way back, then it will be at 52% and stay that way until the charging start 3 hours later. Friday, I will charge to 80% in case of a longer driving during the weekend.

माहिती साठी धन्यवाद👍🙏

I travel for work and leave my car at the airport for 3 or 4 days in a row every week….so I have to account for phantom drain. I’ve stopped using sentry mode on my Tesla since it consumes about 10% per day 😯. Without sentry mode it only consumes about 1% per day.

Nice briefing.
Thanks.
Nuno from Portugal.

Excellent video, thank you for doing this. I however had a clarification. I was wondering if we should charge from 75-65% SOC, as that seemed to prolong the battery life the most based on the last chart you showed. Although I might have missed an explanation of why you thought the 60-40% was a better charging pattern. Thanks in advance for the clarification.

Great info/video, thanks!

Excellent info, thanks !!

Because most people use less than half the battery pack’s capacity each day, a new Swedish study charged cars up to 50%, and then charged them back up to 50% after use. They got spectacular improvements to battery pack service life vs. charging it to any other amount.

Thank you for the work you did here.

Very informative ❤ thanks.

Great video! Clearly presented.

Great info to think about. It’s a similar discussion to how many kms should you drive before an ICE oil change for maximum longevity.

Great video. Very informative

Very informative, thank you, I just bought a new ev on a lease so battery life is not too much of an issue, but i would like to buy a used ev after my 2 year lease, I do 15 miles per day so looking forward to a very long lasting battery when I buy one, the lease gives me time to decide which vehicle to buy and weigh up the pros and cons of Ev ownership 🙂

Great advice. I plan to drop my daily change down a bit more. I dont drive much each day. When I go on trips I do work the battery a bit harder, buts thats only a few times a year. Even on trips I try and keep 85%-25% range more for peace of mind on the low end and charging times on the high end. Super changers tend to slow a lot after 80%, My only concern is the Im guessing the change % on the Tesla display is prob not exactly battery %. That may not matter as I think the main issue is stay kinda in the middle unless you need the range.

Great video, I learnt a lot. Thanks.

A great summary thanks Mark

Good information to consider. Thanks.

There are two ways to measure cycle life. One, is to count the number of times the car is driven, and the number of times it is plugged in to recharge. The other way, is to measure throughput. That is the total number of amp hours the battery puts out over its lifetime, divided by its rated amp-hour capacity. (sometimes referred to as "equivalent cycles") I do believe this would be the most relevant, because that translates to the total miles the battery lasts in an electric vehicle, before it needs to be replaced. In many cases, the best margins would be between 30% to 70% states of charge. Most manufacturers recommend 30 to 80%, to use the middle 50% of total capacity on a day-to-day basis. Occasional charges to 100% aren't too detrimental, as long as the car is driven immediately after the full charge, and is done only on the occasional long trip where you really need all the capacity the battery has to offer. You don't want to charge to 100%, then leave it at that state of charge for a full day.
I was looking at the cycle life graph of a Trojan golf cart battery, (liquid filled deep cycle lead acid)and calculated the total equivalent cycles, and it didn't make any difference whether the battery was discharged 80% down to a 20% state of charge, or, if it was drawn down 20% to an 80% state of charge. The total ampere hours available over its lifespan was the same! (keep in mind, Lead Acid batteries REQUIRE charging to 100%, to avoid sulfation)

Thank you for doing the research/hard work for me. This has helped me greatly. We have a 2023 LR Model Y and use just under 40% total charge each workday. We have been following the recommended 80% charge each night, only going above for long trips. I will now change our daily habits to ‘bracket 50’. 70% max overnight…car will rest at work at @50% during day, having us just over 30% when we get home. This seems to be the closest scenario to the purple/orange line on the ‘stress test’ table for us.
Again, awesome work and many thanks for your research.

Very helpful. I think that everybody can get its own lessons. I lowered my limit from 80% to 75% which would mean that my car would sit most of the day in the 55-65% SOC range. I also delayed my scheduled charge in the am so that I drive it only about half an hour from reaching 75%. This seems to fit my driving pattern the best and hope I will be a happy owner for a long time (MY LR).

Very interessting video, thank you. 👍

Think of it like your own stomach. Don’t wait too long before you eat (get too empty). When you eat don’t eat too much. Basically, be diligent and mindful about it.

Love you shirt! 🙂 one of my favorite albums

Thanks for posting this video…!!!
It will be very helpful…!!!
Nice t-shirt too…!!
Regards from 🇲🇽

Hi mate… thanks very much for that very enlightening information. I’m very interested in this content, please put up more, I have just subscribed ! In fact I’m just about to purchase an EV that has the LFP batt chemistry and I would love to hear you present a similar set of recommendations for that type of battery. Once again. Thank you so much 🙏

Very interesting, I have set mine for daily drive to 65% charge and discharge will land around 40% as I use about 25% on my daily commute. No degradation yet after 3.5k miles.

I’ve just ordered a Skoda Enyaq. This is very interesting information. I won’t do a great mileage, so I’ll only charge once a week at home. But I’ll probably set the maximum charge to 75% and then charge back up at 40%. Good video and well explained.

Thank you 😊 Very good information! I guess many EV owners are charging to a to higher SoC - it’s another way of doing things than in a ICE car 🚙

Very interesting. I have a 2019 Nissan Leaf SL Plus that I have had for 4 years as of 1 December 2023. I have attempted to follow the 20-80% battery charging rule, and usually charge my vehicle with Level 2 home charger. As of this date, I have had no problems with the vehicle, and other than tire rotation the vehicle has had no maintenance. My dashboard battery capacity indicator shows maximum bars. Leaf Spy applications indicates that I have approximately 92% of battery capacity as of this date. I am very pleased with this vehicle and would recommend a Nissan Leaf to anyone that needs a vehicle for urban driving.

For those short distances these people are driving, they don't need a car, they need a bicycle. They would be doing even more good for the planet

The question should be how much will the cost of the battery will be 5-10 years from now to replace. Might only cost a few thousands to replace a battery at the rate of how fast the cost is dropping. Also, by then there will be more fast charger available like gas stations. So do u want to pay a little extra for less inconvenience?

I have been slowly transitioning my home to all electric. It was built with normal natural gas service for appliances. I first installed solar and a Power Wall. Then I installed a heat pump. I am in the process of adding a heat pump water heater and induction stove. I had intended on getting a Tesla Model 3 but the size wasn’t acceptable. By the time the Model Y came out I became aware of Aptera and I like their BEV solution much more than any other focusing on efficiency instead of electrifying a conventional vehicle. I am in California on the central coast so we have mild weather making it much easier. Good luck with your transition.

All wonderful theory. But.. a vehicles BMS handles a lot of this. Cars are now coming with 7 year unlimited km warranties, incl battery, so this might suggest the manufacturer has thought about what end users may or may not do. Limiting yourself so religiously to using such a small % of a battery is very counter to the whole driving experience and can become an obsession. There are so many variables indicated that affect battery longevity that you zero control over. Here in Australia, days and weeks go by where temps well exceed these "lab tests," and I would guess the same is true in European winter based climates where it goes below zero. The alternative to all of this science and maths, etc, is to enjoy the car you drive in the climate conditions that prevail for you and use common sense and manufacturers recommendations given they cover your warranty 😀

This was an excellent review of battery life and charging practices. Well done. I just bought my EV and was very stressed about the state of charging since I drive 65 miles a day and do not have access to a fast charger close to home. Thank you for sharing this useful information. 😅

thanks... was wondering why the 45-55% available stored energy data reading is missing from the table?

The is the best video on EV batteries!!!! Thank you:)

There are several mechanisms that degrade a Lithium Ion battery and reducing the maximum charge will reduce one of the mechanisms but these batteries will, in any case, degrade over time and/or if exposed to significantly elevated temperatures. I have not seen studies showing just how much degradation will occur due to ageing alone but the ideal charging regime would be one that maximises available charge capacity without significantly increasing the degradation that will occur anyway due to ageing.

@marksjustimagine I understand and agree with the logic of not charging to 100% or discharging to near zero, however, one major flaw in the approach is that charging more regularly (daily) from 35 % to 75% SOC (40% for say 160 km) would require twice as many charging sessions as one charging cycle from 10% to 90% (80% for 320 km)

Really good. Thanks. This one is well researched -- and there isn't any hidden agendas. There is so much bad information out there. My Tesla S has 216,000 kms -- and I've lost about 10% of capacity. I've tried to stay between 20%-80% SOC but I do many road trips so 50% of my charging has been on superchargers.

Excellent video thank you

very useful, thank you!

One more thing to consider is the usable battery capacity.
Depending upon the model that range can be from 90 - 96% very roughly from only looking at a couple of models. That's programmed in by the manufacturer to ensure that the battery does not charge to 100% and shorten the battery life.
Check this out and maybe you can charge your battery to a higher level than you may otherwise think.

The best way to recharge is to plug in and recharge every chance you get. The smaller the depth of discharge, the longer your battery will last. I set my maximum charge for daily driving to 50%, and I plug in every time I get home. Drive to dinner and home? 5% DOD, plug in.This is true because the smaller the DOD, the smaller the physical change to the size of the particles that are expressing or receiving the lithium ions, and therefore, the longer they go without splitting, cracking, breaking apart and becoming smaller. If I didn't have the same price for electricity regardless of what time of day I charge, I would recharge every night during off peak pricing.Either way, you want the smallest DOD you can get every time you use and recharge the battery.

Thank you for the very interesting video. Two questions:
1. Is the same rule applies to modern mobile phones? (iPhone, Samsung, etc)
2. 10% DoD is 6000 cycles from 0 to 100% or from 90 to 100%?

We just traded our 12 year old Prius C for a 2024 Prime. The Prime is our third hybrid but first PHEV. The C had 128,000Km on "the clock" and from the beginning gave between 4 & 5 l per 100Km (dependant on ambient temperature). Regards charging cycles; its battery was just under 1kw, so, it was constantly being charged and discharged every time it was driven. At about ten years, the battery would no longer gather enough charge to run the car in EV Mode (which even when new, was limited to 1~2Km's. But, even with that constant charge/discharge rate, the litre's per 100Km performance did not decline.
The new Prime's Traction Battery is close to 13 times the "size" of the C's. It incorporates a charge "buffer" of (I think), 10% lower and upper, meaning there's 80% of usable charge. Yesterday, I drove the Prime 88Km in EV Mode and the Trip Computer indicated there was 6% charge left. The car would have exceeded 90Km on battery. This morning, the computer stated the range would be 91Km.
For us, the Prime is essentially a BEV. After 5,000Km we have used just 1.5 tanks of fuel. Based on the length of service the C's battery gave, we have no concerns about the level of charge/discharge with the Prime. The Traction battery has a ten year warranty, we plug-in every night and don't worry about cycles.

Very useful info, thank you. I'm going to drop my maximum charge level setting tomorrow from 90 to 75.

Very nice chart to examine and think about. Its funny but I find plugging in to charge at home just enough of a bother to not want to do it so often and wish my Kia got 400 miles of range instead of 275 or less in the Winter. Since I really don't want to get caught too low on one of my slightly longer trips and have to use an expensive and notoriously undependable fast charger I regularly home charge to 90 % to have more usable range. And just to remind myself to charge I usually plug back in at 50%. I wish they had tested a few more variables so I could see more closely what my 90 - 50 % system is doing. Thanks.

Graph at 12:00 : it appears that Yellow is better than purple - but its not. The purple covers a 30% cycle min/max- 3 times more power than the yellow (10% cycle min-max), so I need only charge up a third of the number of times. In fact purple has half the number of cycles at 90% capacity retention, so is providing 50% more mileage. Purple looks optimum on this basis so one should aim for keeping charge in the 45% to 75% range, but dropping to 25% is not a disaster as the blue line shows only a minor degradation hit.

Very interesting presentation. I have a polestar 2 but I'm not sure of the battery chemistry. Is it the same as your Tesla as if so I will seriously consider doing the same as you as I only do short journeys too. Could you let me know please?

Thank you for sharing such great information and for the time you took to gather it. If you could help me understand something? I still have a doubt about what is a battery charging cycle? Thank you!

I plan to buy a 2024 Model 3, which will be my first EV. The information in this video is extremely helpful and easy to understand.
I sometimes read comments from people who feel EV's are too complex, but really, they're far simpler than the ICE vehicles I've owned. EV's just have their own unique maintenance requirements, and far less of them 😊

Thank you for sharing this, very interesting 💚 🥃

We live in a remote area. 45 miles to the closest shopping area. Farther for hospital. Farther yet for dentist. Farther for eye care. Much farther for specialists. Our tesla model 3 long range takes us to all these areas easily, thank goodness. Plus we have to be prepared to drive longer distances under unexpected conditions.

Ternary Lithium Batteries (NCM and NCA) should normally be operated around the 50% capacity level. An example of this is when your daily round trip only requires you to charge the battery up to 60% when you leave home, and the battery drops to 40% when you return. So the battery is only cycling around the 50% of full capacity. If you keep doing this regularly, then your battery degradation will be practically immeasurable for a very long time.

My policy has been only charges fast as you have to and don't let the battery sit at 100%, but also do what you have to. With my 23 bolt EV I'm going to lower my Max from 200 or 180 charging every other day to 160mi, charging daily. I charge at 16 amps because I have the time

Extremely significant information condensed down into a simple meaningful statement - well done and thank you.