This is not correct. There is no exemption for Apple devices
You seem to referencing from a older exemption for self serviceability if your smartphone can do 1,000 cycles and retain 80% battery. Specifically - B 1.1 (1) (c) (ii) (b) . Here is the link - https://eur-lex.europa.eu/legal-content/EN/TXT/HTML/?uri=CEL...
Your link says otherwise. From the Article 11 link, ANNEX II, A.1.1.(5):
(a) From 20 June 2025, manufacturers, importers or authorised representatives shall ensure that the process for replacement of the display assembly and of parts referred to in point 1(a), with the exception of the battery or batteries, meets the following criteria: [...]
[...]
(c) From 20 June 2025, manufacturers, importers or authorised representatives shall ensure that the process for battery replacement:
(i) meets the following criteria:
— fasteners shall be resupplied or reusable;
- the process for replacement shall be feasible with no tool, a tool or set of tools that is supplied with the product or spare part, or basic tools;
— the process for replacement shall be able to be carried out in a use environment;
— the process for replacement shall be able to be carried out by a layman.
(ii) or, as an alternative to point (i), ensure that:
— the process for battery replacement meets the criteria set out in (a);
— after 500 full charge cycles the battery must, in addition, have in a fully charged state, a remaining capacity of at least 83 % of the rated capacity;
— the battery endurance in cycles achieves a minimum of 1 000 full charge cycles, and after 1 000 full charge cycles the battery must, in addition, have in a fully charged state, a remaining capacity of at least 80 % of the rated capacity;
— the device is at least dust tight and protected against immersion in water up to one meter depth for a minimum of 30 minutes.
---
So manufacturers must make the battery replaceable, or meet all the conditions from (a) for replacing non-battery components, and meet the 1000 cycle / 80% capacity requirement.
The special screwdriver isn't supplied with the product, and Apple doesn't sell spare parts. I guess "regular" isn't the right word, but it's easy and inexpensive to buy the right tools.
It was not said explicitly but it was a straightforward implication. The replier then pointed out the exemption rule is outdated therefore the implied consequence is wrong and the original line of reasoning was misinformation, and thus would be the greater error. Humans
It really, really was. It's the most basic type of logical implication.
It said: IF BatteryCycles THEN Exempt. BatteryCycles(Apple).
By first order logic modus ponens this results in:
Exempt(Apple)
This is basic math literacy by now. The fact that you do not seem aware and are being confidently rude about it is worth pointing out. Don't do that on HN. This is still a tech forum so try to respect rational discussion as we all abide by these shared rules in this space.
Again, it really, really wasn't. You can do all the contorting you want. Even your "math" here disagrees with you and you don't even realize it!
The post stated "Apple devices", referring to currently produced Apple Devices. Not "Apple". Those are two separate things, you get that, right?
I don't know what level of "basic math literacy" is required to understand that a company and a smartphone are separate things, but you don't seem to have it. Anyways yeah. I don't really owe someone who is repeatedly confidently wrong any further of my time.
You seem determined to have the last word, so I will let you have it. Maybe lecture me about how you prove a Tim Cook is an iCloud with monads. Bye.
> covers exemptions but nothing to do with 1,000 cycles or Apple as far as i can see.
It appears what you're looking for is in B(5)(c)(ii).
> (c) From 20 June 2025, manufacturers, importers or authorised representatives shall ensure that the process for battery replacement:
> (i) meets the following criteria:
> — fasteners shall be resupplied or reusable;
> — the process for replacement shall be feasible with no tool, a tool or set of tools that is supplied with the product or spare part, or basic tools;
> — the process for replacement shall be able to be carried out in a use environment;
> — the process for replacement shall be able to be carried out by a layman.
> (ii) or, as an alternative to point (i), ensure that
> — the process for battery replacement meets the criteria set out in (a);
> — after 500 full charge cycles the battery must have in a fully charged state, a remaining capacity of at least 83 % of the rated capacity;
> — the battery endurance in cycles achieves a minimum of 1 000 full charge cycles, and after 1 000 full charge cycles the battery must, in addition, have in a fully charged state, a remaining capacity of at least 80 % of the rated capacity;
> — the device is at least dust tight and protected against immersion in water up to one meter depth for a minimum of 30 minutes.
I was wondering about that. I lost my iPhone 13 mini the other day, did the find my phone beep thing and got a distant beep from my washing machine which was on wash cycle.
Surprisingly the phone was fine and works fine after a brief rinse under the tap. It must be hard to combine that sort of water resistance with easy user changing.
Don't fall for the 'glue cuz of protection' myth - there are and had been water-resistant phones way before Apple started glueing to avoid customers doing their own repairs and them losing out on new sales.
How much of the total volume of the device was the case/housing?
I suppose the glue-everything approach is partly due to the desire of making a device very thin. There's no room for strong, load-bearing outer case, the internals are load-bearing.
I suspect manufacturing has something to do with gluing too. Afaik screws are expensive compared with glue, and their assembly involves slow humans or expensive robots.
It's been a long time, but the gasket itself was probably a millimetre or two thick, squeezed extremely tightly by the screws in the battery cover. It ran on AA or AAA batteries, and they took about about half or a third of the depth.
Honestly I'd expect that to be SIGNIFICANTLY easier to waterproof than a laundry machine. Partly because laundry is sometimes done warm, and warm softens materials (like gaskets), but mostly because laundry has surfactants that considerably reduce surface tension, making it far easier to slip past gaps.
There is a good reason waterproofing claims are specific about the kind of liquid (usually just fresh or salt water, usually without significant movement (i.e. jets, like you get in a shower)).
Samsung still make the rugged Xcover range which has both replaceable batteries and waterproofing. And 3.5mm jacks too.
These devices are mostly sold in enterprise environments (eg field use, factories) and as such get a lot of wear and tear. But they hold up well. They're not ultra rugged but a good compromise. We use tons of them in our factories, we replaced DECT handheld phones with the Xcovers loaded with ms teams. Not an ideal setup (teams for mobile kinda sucks) but at least this way they can easily communicate with people in the offices.
Yes, but IP67 is not nearly as water resistant as IP68, which all modern phones are for the most part.
I'm not knowledgeable enough to know if IP68 could be achieved in a phone without glue. There's no clamping mechanism for the backs, they're just press-fit with small clips.
From a mechanical perspective ip68 is perfectly achievable mechanically and watches have been achieving it for a long time, however… with what sort of margins for the manufacturer and what sort of cost for the consumer ? Additionally a lot of them require pretty carefully adherence to instructions torques and tolerances to achieve the same waterproof rating.
Personally I’d be very happy to have a phone that says, if you swap the battery you might lose the ip68 rating unless you follow the resealing process within tolerances.
My phone (A Furiphone FLX1, which is kindof a variant of a Gigaset GX6) has a removable back with a gasket and is IP68. One of their promotional videos had them change the battery on video then boot the phone and and unlock it underwater
Who cares though? Sealing the battery in makes the device less drop resistant. I somehow managed to avoid water damage to my phones for decades, while none of my phones managed to avoid being dropped in a way that would most likely be fatal to them if their batteries were sealed in - and yet most of them survived to this day.
A phone needs to handle some rain droplets falling on its screen, anything more than that is a gimmick that's not worth the downsides it comes with.
Maybe as a society it's better for people to have replacement insurance than to have sealed batteries that make phones so disposable. I wonder if we've defined IP68 as a "must have" without considering the alternatives. I'm thinking the percentage of people who actually "use" IP68 over the course of their phone is pretty small...yet that "requirement" drives a huge design choice.
I suspect it's a moot point. Makers have every incentive to drive replacement cycles.
Japan only, but KDDI/Kyocera never stopped IP rated phones with removable battery. TORQUE G07(2026) is IP65/68/69 rated with a coin key locked removable back cover.
It also officially support submersion in seawater as well as cleaning with soapy water. Most glued phones support neither.
Not really comparable perhaps - but I had a Ericsson t18s or similar that went through a full 60C cotton wash cycle (being on at the start of the wash) and was fine after drying off.
The thing is - if the battery had been destroyed, that could have been replaced...
I was wading through water with a 3310 in my pocket in 2006. Battery was fine and it worked after it was dried. There was a problem with the keyboard though but that was a cheap swap. And this was a phone without any water resistance.
I've seen rumors that Apple started waterproofing phones after Chinese criminal groups started farming parts on AppleCare by dumping the mainboard into buckets of Shenzhen seawater to deny electronic serial number readout. Your logic board can't be so dead from normal use that not even its PMIC respond to commands if it's waterproof.
I've also had iPhone dying from gasket leaks, the circumferential double sided tape seal dries out after a while.
My brand new Pixel phone several years back, I was so excited it was IP68. Took some photos splashing around in water, not more than a foot or two. It died in minutes.
This could be "fixed" right now by a software update that limits the maximum charge level to 80% of capacity. However, this comes at the cost of how many minutes of runtime your phone can operate.
So manufactures might just responds to this by making your phone heavier with a bigger battery that is being under utilized.
Honestly we should define 80% as the new "100%" on such batteries and label "charging to full" as "overcharging".
Psychologically, people understand charging a battery to "125%" (or whatever) a lot better: Do it when you really need to but if you do it all the time it wears down the battery a lot faster.
Nice idea. I think the reason it's not communicated as such is that then companies would be expected to advertise time on battery when charged to 100%, not 125%.
The Samsung phone I use these days has a "Protect Battery" mode that can be toggled (both manually and with automatic user-defined routines). It limits maximum charge to 85%. For those who want it: That's the ~same thing, without the psychological trick.
It also has some other settings that relate to smart charging that I don't fully understand (mostly because it's kind of inscrutable).
But the idea, AFAICT, is that it works with a person who charges their phone on a fairly regular schedule (they sleep at about the same time every night with plugged in all night).
The battery meanders up to 85% or something and holds there. Shortly before the person normally wakes up, it starts coming the rest of the way up to 100%. And then they wake up, unplug the phone, and it begins to discharge.
This helps to minimize the duration of being at a high state-of-charge, which is also a big factor in long-term battery longevity.
I recently investigated large portable power banks (Jackery, etc.) and like that there are options to charge faster with a battery life tradeoff. Let people make their own informed choices.
This sounds great. I would've loved to have set my phone to charge up to only 60% or 80% of its design capacity to reduce wear. I do this on my laptop.
It has been on iPhones for quite some while, but on androids even longer. Before that it was in the form of some smart charging scheme that it would only finish charging until the moment it thought you would unplug it.
Anecdata, but I did this on my iPhone, and it did absolutely nothing for battery longevity compared to charging to 100% with "optimized charging" (which keeps it at 80% for as long as possible when charging overnight).
Same for my s24, 80% battery limit and slow charging at night (most of my charging). It's been over 2 years and the battery seems to last just as long as day one
Battery capacity of smartphones seems to double every ~8 years. The design space is adding more battery capacity, reducing battery life, or using less power.
Isn't this pretty much what Nothing are doing? At least one of their phones has a different battery rating in India than elsewhere, despite containing the same hardware.
And what about if 4 years they says that they have dettected a problem in your battery? A new battery should fix that but now you cannot do it properly because it could do 1000 cycles.
This same thing happened to Pixels 6a after 500 cycles.
Then don’t buy a phone from a company with a piss poor record of customer service.
Just looking in maps, there are three Apple Stores within a 45 minute drive from where I live in central Florida.
The situation is worse in my hometown in South GA admittedly, you have to drive 70 miles for same day service for an authorized repair place - mostly Best Buy.
The goal should be reducing e-waste, and honestly this seems reasonable.
I’d rather get the additional structural rigidity, compactness, and weatherproofing that comes from the tight construction and then pay $99 to have Apple professionally install a new battery for me in 3-4 years. Forcing everyone’s iPhone to take all of the tradeoffs of replaceable batteries so some people can save $50 to replace their own battery isn’t a good deal.
I wouldn’t be surprised if forcing all phones to have easily replaceable batteries would result in a net increase in e-waste due to the additional failure modes introduced. Even if batteries were easily replaceable I think most iPhone users would have Apple do it for them anyway.
I’ve also replaced some iPhone batteries myself and it’s really not that bad if you are familiar with taking modern electronics apart. Apple will send you the entire toolkit if you want complete with a return label.
> Forcing everyone’s iPhone to take all of the tradeoffs of replaceable batteries so some people can save $50 to replace their own battery isn’t a good deal.
This sounds like the exact opposite of real life. Every battery ages to the point of uselessness, not every phone gets to take a dive. It's not a stretch to say most phones never see more than some rain or a spilled drink. But the worst part of every discussion on this topic is this false (uninformed) dichotomy that water resistance and easily replaceable battery are mutually exclusive.
> and then pay $99 to have Apple professionally install a new battery for me in 3-4 years
In 3-4 years yes, but how about in 10-15 years? Apple will refuse to take your money then.
> Apple will send you the entire toolkit if you want complete with a return label.
Which is malicious compliance. They should allow the friendly neighborhood repair shop to purchase a toolkit so you can choose who does the repairs for you.
Since when? Last time i read about the Apple "DIY" kit it was only a loan and only for ... doing it yourself.
But then I haven't broken a phone in a while so I haven't really talked to my friendly neighborhood repair shop. That only because my daughter finally grew up, they remembered me at the shop back when she was young :)
There is the DIY program, and the Independent Repair Program [0].
> That only because my daughter finally grew up, they remembered me at the shop back when she was young
Ha! This is so relatable right now. My daughter is 15 and recently has been learning to drive, and last week she taught herself what happens if you set your iPhone on top of the car and then drive off. That is the only reason I've got familiarity with my local friendly neighborhood repair shop, I've never broken one of my own phones in all these years. Fortunately this life lesson only cost her the $39 deductible. Glad I decided that a 15 year old getting her first phone needed an insurance plan.
> what happens if you set your iPhone on top of the car and then drive off
Mine once dropped hers without noticing in a parking lot. We called her number and some dude answered and said come back here, i'll wait for you, but unfortunately i found your phone by stepping on it (it was night). At least it was just a person and not a car.
But don't despair, they grow out of it eventually. You may have to wait until she's off to college and forced to be more responsable by living on her own though.
Apple offers replacement batteries for an 11 year old phone, now -- past performance is no guarantee but they're already way, way ahead of the pack and there's no sign they're going to stop repairing old phones.
Probably. I mean, I don't even remember what standard my home wifi is on. It works, it's fast enough. Sometimes I think about upgrading the AP but why bother?
I wonder if this is part of why Apple is behind most competitors in terms of fast charging. Would almost make marketing sense to come out and say it at this point.
1 Cycle is discharging from 100-0 and charging from 0-100, regardless of how many times the phone is charged, so for a user that averages 50% battery drain each day, 1000 cycles would actually be ~6 years. I have no idea what the actual average is, but I'm betting that 1000 cycles is at least 4 years for the average user and possibly significantly longer.
You seem to referencing from a older exemption for self serviceability if your smartphone can do 1,000 cycles and retain 80% battery. Specifically - B 1.1 (1) (c) (ii) (b) . Here is the link - https://eur-lex.europa.eu/legal-content/EN/TXT/HTML/?uri=CEL...
Article 11 of the new regulation (https://eur-lex.europa.eu/legal-content/EN/TXT/HTML/?uri=CEL...) covers exemptions but nothing to do with 1,000 cycles or Apple as far as i can see.