It was a good cable when it came out, but as soon as USB-C became common it was obsolete. It was limited to USB2 speeds and did not support fast charging.
Which, seeing how Apple is still hellbent on continuing to only have USB2 speeds even with USB-C, plus lockout chips, their new connector is obsolete as well.
Faster USB chipset is more expensive and potentially also physically larger with more traces on the circuit board to deal with I imagine. And faster data speeds require more attention to how the traces are routed to prevent interference. I very much doubt this is anything other than to save a relatively small amount on materials and engineering costs, on an already overpriced phone, and/or to try and “encourage” you to use iCloud by making offline sync and backup painfully slow.
As someone involved in engineering boards with both USB 2.0 and 3.0 the costs are negligible. You’re not wrong about more traces or about it requiring more attention but per phone this cost less then a few cents.
I think it’s more about the upsell to the Pro line or as you suggested encouraging use of iCloud.
As I remember it the USB 3.0 chips can cause interference in 2.4GHz range unless shielding is used and the USB chipset is kept far away from the 2.4Ghz antennas. Probably just “juice not worth the squeeze” on the smaller non-pro model, if there’s a significant chance it could interfere with Bluetooth and wifi.
USB-C is still not “common”. There are now all kinds of different cables with nothing in common except a form factor. Also, USB-C came out 2.5 years after lightning and didn’t match feature parity until the Thunderbolt spec and that was 5 years later. At that point, accessories and cables that used the Lightning port numbered in the millions, if not billions.
Also, what do you mean? The new phones support USB3…
How is USB-C not common? It’s the default for every remotely modern android phone I’ve seen, all the modern game consoles I’ve seen (eg, the Switch and PS5 controllers), and many other random electronics use it (I even had a covid tester that was plugged into USB-C). All my laptops these days use it (including two Chromebooks, a high end MacBook, and a Windows laptop) and of those, only the Windows laptop even had USB-A ports (ie, the other laptops only had USB-C).
I won’t pretend it’s perfectly ubiquitous. There’s lots of older electronics still using micro or mini USB (there’s been no reason for manufacturers to update older devices). But it’s definitely common in my book.
It’s not “common” in the sense that a USB-C connector can be all kinds of different implementations of the USB2/3 standards. To use your example, using a USB-C charger other than the default Nintendo one can short out a Switch completely and kill it. Compared to products that use Lightning, the number out there dwarves the current USB-C landscape. There are tons of devices that still use USB-A and USB-B and USB-C hubs don’t really exist.
In that case either the charger or the Switch was faulty, no matter the protocol in use, the devices should negotiate which charging profile to use. You can’t blame a non-spec implementation on the protocol, that’s on the manufacturer.
From what I’ve been able to see, that specific issue stems from a combination of cheap chargers/docking stations and Nintendo changing the USB-C port tolerances to allow smooth sliding in and out of the dock. Again, don’t blame the standard if the manufacturer decided to implement their own crappy version of it.
It was a good cable when it came out, but as soon as USB-C became common it was obsolete. It was limited to USB2 speeds and did not support fast charging.
Which, seeing how Apple is still hellbent on continuing to only have USB2 speeds even with USB-C, plus lockout chips, their new connector is obsolete as well.
I still don’t understand the reason for the speed limit tbh. It just makes their product look like shit.
Faster USB chipset is more expensive and potentially also physically larger with more traces on the circuit board to deal with I imagine. And faster data speeds require more attention to how the traces are routed to prevent interference. I very much doubt this is anything other than to save a relatively small amount on materials and engineering costs, on an already overpriced phone, and/or to try and “encourage” you to use iCloud by making offline sync and backup painfully slow.
As someone involved in engineering boards with both USB 2.0 and 3.0 the costs are negligible. You’re not wrong about more traces or about it requiring more attention but per phone this cost less then a few cents.
I think it’s more about the upsell to the Pro line or as you suggested encouraging use of iCloud.
Standard iPhone is using last year’s Pro chipset which doesn’t support USB 3.
The newest Pro uses a newer chipset which has USB 3 built in.
The reason is money grab no doubt.
As I remember it the USB 3.0 chips can cause interference in 2.4GHz range unless shielding is used and the USB chipset is kept far away from the 2.4Ghz antennas. Probably just “juice not worth the squeeze” on the smaller non-pro model, if there’s a significant chance it could interfere with Bluetooth and wifi.
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USB-C is still not “common”. There are now all kinds of different cables with nothing in common except a form factor. Also, USB-C came out 2.5 years after lightning and didn’t match feature parity until the Thunderbolt spec and that was 5 years later. At that point, accessories and cables that used the Lightning port numbered in the millions, if not billions.
Also, what do you mean? The new phones support USB3…
How is USB-C not common? It’s the default for every remotely modern android phone I’ve seen, all the modern game consoles I’ve seen (eg, the Switch and PS5 controllers), and many other random electronics use it (I even had a covid tester that was plugged into USB-C). All my laptops these days use it (including two Chromebooks, a high end MacBook, and a Windows laptop) and of those, only the Windows laptop even had USB-A ports (ie, the other laptops only had USB-C).
I won’t pretend it’s perfectly ubiquitous. There’s lots of older electronics still using micro or mini USB (there’s been no reason for manufacturers to update older devices). But it’s definitely common in my book.
It’s not “common” in the sense that a USB-C connector can be all kinds of different implementations of the USB2/3 standards. To use your example, using a USB-C charger other than the default Nintendo one can short out a Switch completely and kill it. Compared to products that use Lightning, the number out there dwarves the current USB-C landscape. There are tons of devices that still use USB-A and USB-B and USB-C hubs don’t really exist.
In that case either the charger or the Switch was faulty, no matter the protocol in use, the devices should negotiate which charging profile to use. You can’t blame a non-spec implementation on the protocol, that’s on the manufacturer.
From what I’ve been able to see, that specific issue stems from a combination of cheap chargers/docking stations and Nintendo changing the USB-C port tolerances to allow smooth sliding in and out of the dock. Again, don’t blame the standard if the manufacturer decided to implement their own crappy version of it.
Only the Pro models, I believe. Funnily enough, typical Apple too, since they are bundling only a usb2.0 cable in the box for the Pro as well.