These are just examples, I have no opinion on what is the best.
Something like: I like the cameras from the Galaxy s23, the processor from the latest Pixel, the memory from the Razor. I mean whatever. I suppose Iphones could be included, but I figure it’s more locked in than androids, I could be wrong.
Or even replacing a part from one phone with one that’s better, for personal use? Like, even just putting pixel 7 cameras into a pixel 8 phone.
Besides the factory warrenty, and money spent, is it software? Is it having to reconfigure the hardware? Is it just space in general?
If we all have things we don’t like about our phones, why aren’t we able to just make it more to our liking?
design compatibility issues and proprietary firmware or software
You won’t have any of the electrical or protocol/register info or other data for any of the components unless you’re a manufacturer and most parts aren’t really salvageable separately but are essentially one big glob on the board. Even with the skills, you’d need to reverse engineer some of the most complex and hard to use components ever manufactured for consumer use and somehow fit them in places they were never meant to fit.
And yes, software. The board support for the SOC, mostly. Maybe starting off with a pinephone or something might help, but I doubt even that is open and usable enough.
Software.
The most modular phone right now, which you can open yourself and replace parts with just a screw driver, is the FairPhone. And even that one, you can scavenge parts from older models of the same brand, because the connectors don’t fit. There’s very little space left inside a modern phone.
We should have the right to repair our phones. Imagine if you could never upgrade new parts into your desktop because of a corporation
Steps are being taken in the right direction. The US has also been making progress, which I’m sure will continue if America doesn’t give up on itself next month.
That said, it’s not nearly enough. As long as the focus is on innovation and growth rather than sustainability, and consumers don’t really give a fuck, it’s going to be difficult to see any change.
But I’m very happy with my Fairphone, and my next laptop will no doubt be a framework. Baby steps.
Imagine you like the shape of the front of a Mini Cooper and the rear of a Ford mustang. You could take the paneling from the interior of a rolls Royce and the seats from a Lamborghini and make a really cool car.
Unfortunately, unlike modern standard PCs, phones are individually designed and built and even models in the same range can’t use each other’s parts or software.
Each component is designed to work with each of the other components and just slapping them together doesn’t necessarily make a new working product.
Modern phone cameras are 99% software at this point. If you took one phones camera and put it onto another phone without adapting the software then the photos will look like ass.
You can’t just unplug something from device X and connect it to device Y. The connectors aren’t standardized. And even if they were they wouldn’t fit because the placement is different. In theory you could take the CPU off of one device and plant it onto another. But have fun with that BGA micro soldering. Plus the connections will be different unless you picked a phone with the exact same CPU. Ram is the only thing you could potentially upgrade. But like good luck.
You’d legitimately have an easier time making a new phone from scratch than trying to piece together 3 different phones.
Form factor, mostly.
Don’t forget about device drivers. I can’t even install a newer version of Android on my Android phone because the community never managed to get the antenna to work after upgrading the OS.
I can’t solder nearly as well as a machine.
I’d say that I could do it for you, even, given sufficient effort, time and money. However, it would be the size of a shoebox. And don’t you dare open that shoebox or else all the parts are going to come falling out.
There isn’t, like, a standard like there is for PCs. Everything is custom made for that thing except the microchips themselves. And taking those off and just slapping them on a different board isn’t that simple.
I would love it if they were like a PC though. Build my own phone with this screen and that CPU/GPU, configurable RAM, etc. Why they don’t do that, though? Greed.
Essentially time and cost? Building such a Frankenstein-Phone would probably take you half a year to design the PCBs, get all the connections and power rails right, all the needed peripheral electronics for the chips. Read thousands of pages of datasheets to place the correct capacitors for the oscillator of the … sensor on your mainboard design. (And there are a lot of tiny components in a phone that all work together, in part depend on each other, or require additional control/supply circuits.) You’d need a lab and equipment do build it, and the mechanics and encasing. And probably some takes and failed iterations. And software and drivers also have to be rewritten and patched.
So I’d say if you have the expertise in electrical engineering, hardware design, embedded software programming… A 5 figure(?) sum of money for supplies and equipment and nothing to do in the next year… I’d say nothing is stopping you 😆
Well that seems like more effort than it’s worth… I figured the biggest issue would be fitting it into the phone, but that sounds like least of the worries.
Right. I mean these things are really complex, usually not made to be repaired (i.e. modular) and lots of things are purpuse built to fit in that small form factor. Components are scattered around because there was some space left somewhere on a PCB and some components share a purpose, which makes it difficult to entangle the electronics…
And it’s always difficult to compete with mass-manufactured products. I like to tinker with electronics or build things at home. I learn a lot of things while doing it. And I get things that are unique and built spefically for my purposes… But usually they’re not cheap(er) than mass produced products, because I don’t buy supplies in bulk and it takes me days to build one thing while a production line can pump ot thousands of devices in the same timespan.
And I ocassionally repair (household) devices or just take apart broken ones for shits and giggles… And some of them immediately look like they just aren’t meant to be repaired or modified. Some components like a phone screen, camera or even the backlight or power supply of a broken flat screen TV can be messed with. But it usually ends with complicated PCBs. You can replace broken components (if you got the correct tools), but you can’t really change much about them without going through an laborious process of reverse-engineering and maybe designing a whole new PCB (from scratch). Which makes sense for smaller projects, but it’s just not feasible for complex devices like phones/laptops/TVs that aren’t meant to be repaired. Or where every design choice contradicts serviceability like with phones and cramming everything into the small slab.
