Unless you wanted high transfer speeds for something like an iPhone if you’re transferring videos, then you’d need something like 12 or 13 poles. Now imagine accidentally yanking on the port of a modern smartphone tripping over the cable.
I could only generate about 9 poles in my testing.
Just make the usb-c connector a circule and not an oval. I am guessing that the only reasons it isn’t circular is thinness (devices are thin and need thin connectors) and manufacturing costs (probably harder to get it circular with all of the inner pins)
I can’t think of the proper words so I apologize for how untechnical this is: If you look inside the connector you’ll see a thin line jutting out. That’s the actual thing that USB-C connects with. You can’t make that round. The reason the outer part of the plug is an “oval” is just to make plugging it in easier. It could be a rectangle and still work.
Assuming by “jutting pieces” you mean the pins, yeah, I could see that being difficult ultimately to manufacture into the 3.5mm jack configuration.
But translating each pin to a “band” (sorry I’m not very technical myself) on a jack with the form factor of a 3.5mm pin should be doable. You’d probably need 5 or 10 bands since (as I understand it) USBs use a 5 pin connection (again, as I understand it, most devices mirror the 5 pins on each side, but some more advanced/specialized USBs utilized the USB-C connector as 10 pins, hence the possible desire for a 10 band jack).
Again, I could see that being difficult to manufacture, but not impossible, and especially if it became a standard package. Might need a bigger jack than 3.5mm though.
USB-c has a bunch of futureproofing in it, like a bunch of pins that aren’t used yet. And even without those pins, is supports usb4v2, which has 4 lanes of PCIe 4, and they keep doubling the speed every minor release of usb.
If we get to a point where those other pins are needed in the next decade, I’ll be surprised.
So unless there is something physically problematic with the connector, like after all this time we suddenly realize that the design causes failure in some common scenario, or material science leaps ahead and the port becomes too large for consumer devices, then it’s probably good that they’re not making a new standard.
Can you explain why the jack for my guitar to my amp has to be like 3 times bigger than the jack for a phone or computer to some speakers? It’s literally doing the same thing, right?
Considering the 1/4” jack has been around for literal eons (1877, no joke), there’s sort of just tradition when you compare it to the 3.5mm from the 1950s. The primary reason being durability. Your guitar is probably going to be yanked on pretty rough a few times compared to something as little as a phone that will just rip out of your hand. On the guitar, it’d probably damage the port pretty quickly.
That’s interesting. So there’s no major signal degradation or limit between the two cable sizes? I always assumed it was something like that that would make the larger jack preferable.
Not really. Until you get down to really small sizes, the human ear can’t perceive the signal noise. If you’re recording at a full studio level, the lower the noise floor, the better, and thicker cables/ports are better, but for most indie stuff, 3.5mm would suffice just fine for audio quality. Also, if you amping the signal like crazy, that could theoretically help with noise.
Unless you wanted high transfer speeds for something like an iPhone if you’re transferring videos, then you’d need something like 12 or 13 poles. Now imagine accidentally yanking on the port of a modern smartphone tripping over the cable.
I could only generate about 9 poles in my testing.
Just make the usb-c connector a circule and not an oval. I am guessing that the only reasons it isn’t circular is thinness (devices are thin and need thin connectors) and manufacturing costs (probably harder to get it circular with all of the inner pins)
<.< I can’t tell if this is a joke or not.
Seems serious to me. Is there an obvious reason it’d be a joke / is not to be taken seriously?
I expect theres some technical limitation that wouldn’t be obvious to a layman, but I’d love to learn if you can point to resources.
I can’t think of the proper words so I apologize for how untechnical this is: If you look inside the connector you’ll see a thin line jutting out. That’s the actual thing that USB-C connects with. You can’t make that round. The reason the outer part of the plug is an “oval” is just to make plugging it in easier. It could be a rectangle and still work.
Assuming by “jutting pieces” you mean the pins, yeah, I could see that being difficult ultimately to manufacture into the 3.5mm jack configuration.
But translating each pin to a “band” (sorry I’m not very technical myself) on a jack with the form factor of a 3.5mm pin should be doable. You’d probably need 5 or 10 bands since (as I understand it) USBs use a 5 pin connection (again, as I understand it, most devices mirror the 5 pins on each side, but some more advanced/specialized USBs utilized the USB-C connector as 10 pins, hence the possible desire for a 10 band jack).
Again, I could see that being difficult to manufacture, but not impossible, and especially if it became a standard package. Might need a bigger jack than 3.5mm though.
USB C has a (soon to be) max power delivery of 240 watts. Shorting that onto a data pin would be catastrophic.
You can kinda work around that, but honestly the easiest way is to just not present the opportunity.
That seems like a particularly poignant concern. Lol, so I’m hearing “possible, but but difficult and undesirable”
Thanks to the eu, it’s unlikely we’ll ever have another usb variant. Certainly nothing in the next decade.
USB-c has a bunch of futureproofing in it, like a bunch of pins that aren’t used yet. And even without those pins, is supports usb4v2, which has 4 lanes of PCIe 4, and they keep doubling the speed every minor release of usb.
If we get to a point where those other pins are needed in the next decade, I’ll be surprised.
So unless there is something physically problematic with the connector, like after all this time we suddenly realize that the design causes failure in some common scenario, or material science leaps ahead and the port becomes too large for consumer devices, then it’s probably good that they’re not making a new standard.
Good.
Can you explain why the jack for my guitar to my amp has to be like 3 times bigger than the jack for a phone or computer to some speakers? It’s literally doing the same thing, right?
Considering the 1/4” jack has been around for literal eons (1877, no joke), there’s sort of just tradition when you compare it to the 3.5mm from the 1950s. The primary reason being durability. Your guitar is probably going to be yanked on pretty rough a few times compared to something as little as a phone that will just rip out of your hand. On the guitar, it’d probably damage the port pretty quickly.
That’s interesting. So there’s no major signal degradation or limit between the two cable sizes? I always assumed it was something like that that would make the larger jack preferable.
Not really. Until you get down to really small sizes, the human ear can’t perceive the signal noise. If you’re recording at a full studio level, the lower the noise floor, the better, and thicker cables/ports are better, but for most indie stuff, 3.5mm would suffice just fine for audio quality. Also, if you amping the signal like crazy, that could theoretically help with noise.