DIY Perks - Thanks for pointing out the breakout boards. Those will be handy for some future projects. Once again, this was a very, very good video. 👍🏻
I love how your channel actively pushes back against built in obsolescence and e-waste just by providing ways to upgrade tech and reuse hold hardware. Keep up the good work! Love your content!
@@soundspark this is true but on some laptops the ssmc ports are to close together to put 2 usb-c to usb adapters next to each other. (i can't even plug in a hdmi cable and usb-c to usb adapter next to one another)
I feel like your channel is an actual DIY channel, offering decent guides, advice, and ideas for stuff that is actually useful and actually saves time/money to do. Your channel isn't like other "DIWhy" channels, that just pump out random low quality solutions to problems that don't exist. Plus, you're helping remove e-waste and teaching people to re-use/reduce rather then just throwing it away, which is really cool.
He does, but this one seems a bit ridiculous considering you can buy an adapter that looks way better and it barely larger than the one he made. You still have to charge your device with the old USB cable anyway.
Skills aren't necessarily easily accessible and patience is sparse in the world. Knowledge is widely available too but like I said, patience and understanding are utterly necessary.
7:04 You could have just added a solder blob between Ground and R1 after scraping the trace to V+. Or you just remove R1 and solder it where it says R2. That would save you the hassle of soldering this THT resistor onto the board.
Im not a well versed in circuitry, but I did wonder why he didn't just do that, because all he said was its a resistor configuration, and it defaults with the resistor there.
Yeah someone clearly went to the trouble of making these boards as easy as possible to switch, and he just destroys the trace and slaps an absolute unit of a resistor on there. Just sliding the resistor over to the other pad means you don't need to have spare resistors on hand, and you don't have to guess at resistor voltage.
@@armLocalhost Its possible he did it this way to be more approachable for novices. I understand there are like 3 kinds of circuit components delineated by the method of soldiering. And that resistor looks like one of the harder ones to play with. But again, i know nothing so I could be wrong.
@@Justowner I disagree, from a novice standpoint it is harder to scrap the pad, track down the correct resistor, solder it in place without the leads making contact with anything else. While it is harder to work with small components (ie. surface mount) and when de-soldering the resistor it is useful to actually add some solder (due to lead solder having a lower melting point and flowing easier than unleaded solder used in manufacturing the component), it is well within the range of a novice. (If someone feels uncomfortable with moving the resistor than this is not a project the novice should be undertaking considering the risk level to the more expansive computer).
Pretty much. Type C adoption rate is slower than connectivity advancement. And bastard companies like to reinvent the wheel with proprietary connectors.
i know things like that have happened many times and maybe im being too optimistic ( though im pretty pessimistic generally) but i really think the usb c connector will be around as the primary physical format for awhile. the protocols will continue to be updated but i think usb c has at least another 5 to 10 years. hopefully more. its hard to imagine lutgrowing it any time soon especially considering what thunderbolt 3 can put through it
@@_BangDroid_ it took USB 1 a few years to be popular on devices and the expense that went into creating USB C is too much for companies to give up on this early.
I love how be breaks down everything into easy to understand terms. If I had a teacher like him in high school or even college, I'd probably learn more things easily.
Matt, I seriously love your content, and it puts a smile on my face every time I see a new upload. Whether it is giving life to old devices such is this video, or creating something from the ground up, you do so in such a fantastic way. Thank you for all the hard work you very clearly put into your videos so that those of us that are interested in trying to do these types of things, are able to, through very clear instructions. You're the best!
@@oscr_zen long time subcriber here, yeah the quality he puts out is on a whole another level its so professional it doesn't even look diy. the tutorial from start to end product looks so clean and he always comes up with some the most simple and effective mechanisms, he's so creative.
(7:11) It looks like there's a trace to the ground pad, and all you'd need to do is desolder/resolder the existing smt resistor on the adjacent pair of pads.
The pull-up value of a DFP resistor is very different from the pull-down value of an UFP resistor. He would need a different SMT resistor anyway, which I imagine he doesn't have in his drawers.
what an incredible video. like others have said, the focus on reducing waste and keeping older tech relevant is such a refreshing perspective in today’s culture
it *isn't* being turned into type C Micro-b is effectively USB 2.1, which has far lesser power and data transfer speeds than the USB 3.2 Gen 2 that type-A uses.
7:05 can't you just move the existing resistor to other pads next to it? Seems to me that's how it's supposed to be done. OR! Just jump the pads and scrape the trace?
You can, but most people aren't too good at soldering SMD components so it's technically easier the way he did it for most people so I guess that this is the reason why he did it like that. Though it kinda hurts my eyes mashing non SMD components onto such a tiny board.
Also it's more likely for people to have normal resistors at home than SMD components and DIY Perks projects are intended to be done with stuff you are more likely to have at home.
In fact yes one side of both pads connects to the pins on the USB while the other pins connect to VCC and GND. Swapping the position of the resistor would in fact change the mode
Great video Matt as usual. CC1 and CC2 can be configured for sinking (Rd = 5.1K) or sourcing (Rp = 51K) the power. On the board, there is a soldering pad named R2. This pad is connected to GND, so simply remove the 51K Rp resistor from R1 pad and put 5.1K Rd resistor on R2 pad. By doing so you will pull down both CC pins (A5 and B5) to GND and so your device will sink power (sub-device) instead of sourcing it (host-device).
CC1 and CC2 are names that are only used for receptacles (sockets), not for plugs. For a USB-C plug those pins are called CC (A5) and VCONN (B5), and for a plug integrated into a device (as in the examples in this video) only the CC pin has a 5.1K resistor to GND (for a sink) or 56K resistor to VBUS (for a source), while the VCONN pin is left unconnected. And while a sink device with a USB-C _receptacle_ should indeed pull down both CC1 (A5) and CC2 (B5), each of these two pins *must* have its own separate 5.1K pulldown to GND. If you erroneously tie CC1 and CC2 together and use a single shared pulldown then your device will fail to receive any power when using certain cables (specifically active or tagged cables).
he has to keep up the illusion that surface mount soldering is too hard for westerners or youtube isn't going to continue to push him views and subscribers.
@@micnolmadtube I was saying majdinj's description of what happens when you do this procedure (on an electrical level) was incorrect, and they also had the pull-up resistor value wrong. However, the procedure should still yield the desired result of reconfiguring the role of the board. Specifically, if a USB-C male connector board has one resistor placed and one spot for an unplaced resistor then it seems very likely that indeed these are for pulling CC either up or down to configure the role of the board: - 5.1 kΩ pull-down from CC to GND for sink role, or - 56 kΩ pull-up from CC to VBUS for source role (can alternatively be 22 kΩ if you can safely source 1.5A of current, or 10 kΩ if you can safely source 3A of current) Hence, if the board comes configured into source role by the presence of a pull-up resistor, then removing that resistor and soldering a 5.1 kΩ resistor at the _other_ location should reconfigure the board into sink role. For a USB-C _female_ connector board things are similar except it has two CC pins to deal with, hence it will need either two pull-ups (one from CC1 to VBUS and one from CC2 to VBUS) or two pull-downs (one from CC1 to GND and one from CC2 to GND). The resistor values remain the same. Here's a full description of the all four legacy USB 2 to USB-C conversions: (any pins not mentioned are unused and must be left unconnected) USB 2 host/source to (male) USB-C plug: pins A1,B1,A12,B12 and shield are GND and must all be connected together pins A4,B4,A9,B9 are VBUS and must all be connected together pin A5 is CC and needs a 56 kΩ resistor to VBUS pin A6 is D+ pin A7 is D− pins B6 and B7 have no contacts in a USB-C plug USB 2 device/sink to (male) USB-C plug: pins A1,B1,A12,B12 and shield are GND and must all be connected together pins A4,B4,A9,B9 are VBUS and must all be connected together pin A5 is CC and needs a 5.1 kΩ resistor to GND pin A6 is D+ pin A7 is D− pins B6 and B7 have no contacts in a USB-C plug USB 2 host/source to (female) USB-C receptacle: pins A1,B1,A12,B12 and shield are GND and must all be connected together pins A4,B4,A9,B9 are VBUS and must all be connected together pin A5 is CC1 and needs a 56 kΩ resistor to VBUS pin B5 is CC2 and needs a 56 kΩ resistor to VBUS pins A6 and B6 are D+ and must be connected together (as close to the connector as possible) pins A7 and B7 are D− and must be connected together (as close to the connector as possible) USB 2 device/sink to (female) USB-C receptacle: pins A1,B1,A12,B12 and shield are GND and must all be connected together pins A4,B4,A9,B9 are VBUS and must all be connected together pin A5 is CC1 and needs a 5.1 kΩ resistor to GND pin B5 is CC2 and needs a 5.1 kΩ resistor to GND pins A6 and B6 are D+ and must be connected together (as close to the connector as possible) pins A7 and B7 are D− and must be connected together (as close to the connector as possible)
the way this man has always got a smile on his face really makes me happy, i know he’s suffered with depression before and it’s so so wholesome to see him channeling his hidden happiness with these videos. keep up the good work matt, we love and appreciate you and every project you make. you’re a huge inspiration to many including myself to get into DIY projects ❤️
For me, this smiling genius just proved: The more things change, the more they remain the same. In the old days if you broke a lamp cord, it was fairly easy to fix DIY. The problem nowadays is you have to have eyeballs the size of footballs to see what you are doing-at my age. Thanks for the video!!!
Pro dongle: Most of them have multiple ports (not shown in this video). However, if you have plenty of ports already (not shown on your computer), that's nice. Great work
I was thinking this was gonna be a long video about usb dongles was not expecting you to actually try it. Then i realized youtube is finally recommending me videos of actual DIY for once.
@Hycrycer Bluetooth is extremely slow when using some of Logitech features like switching device. It takes a good 3-4 seconds to change device compared to the Logitech receiver being instant. Also Bluetooth has a lot of other downsides.
I mean, if you look at this dood's plug, it will break right off with even slight leverage. That's like 99% of the reason Logitech has a nano receiver. Nano receivers are a lot harder on USB-C, because you can't hide part of the circuitry inside the USB plug like you can with USB-A.
Guys, you can sync your mouse or keyboard directly to the laptop's bluetooth, without the need for a nano receiver which is simply a mini bluetooth adapter
@@PudinAsesino Logitech's Unifying is not the same as bluetooth, but some of their mice have both. Even for those, however, the unifying adapter tends to have better tracking, as it has a higher/smooth poll rate.
@Paul Flusk Bluetooth is absolutely horrible for any kind of real time application. Bluetooth mice feel like you're dragging the cursor around on a rubber string.
Had the same thought. Looks pretty clear that those pads are meant to be configured by the end user if needed. Could even use the same surface mount resistor.
Never thought I'd want to see a guy play with USB sticks. All jokes aside, this video was great, love to see you build projects. Great job on another thing that improves your daily life.
C isn t better because is reversible ,but is alot faster ..... oh wait it wasn t iphone who came first with data /power cable reversible? Now we know the beef between us and china step by step >.,
ahahh same. Surely its not much effort to order some at the same time as the breakouts. And it looks like R1/R2 correspond to the host/sub config? So potentially able to change it without any other components if the pullup/pulldown is the same value edit: just saw a bunch of other comments with the same observations. Also cutting the trace to Vbus and bridging it to gnd should have worked
That soldering, loose data wires, it's some hardcore stuff over here, but it awesome that it works that way anyone can do it 😁 no hate, not everyone is good at everything 👍🏻
@@TheSecondSomething Precisely, the pads are there, bridging is also valid option, but still no hate or anything as the idea showed in the video is great
@@jaroslavpetardyson5666 I actually found it more comfortable, as someone with zero experience, that they are not like factory-made, but are flimsy and funny, it's always scary to try out something new, like DIY, and your devices look abysmal in comparison. This just reassures you that you can try and it's not a problem if they look kinda meh.
i dont think things changed in this market for that reason. Royalties though make you question this, but think about how fast consumer electronics have changed over the last twentie years.
My preferred method for encasing dongles like receivers and flash drives is to use modeling clay. Wrap board and wires in cello-tape, mold the clay around it, pull it out and bake to get your new shell. You can then remove the tape and affix the shell with epoxy or hot glue. For cables, I usually thread on a few pieces of heat shrink, usually 2 of each size between the size of the cable and the size of the connector. I then use silicone or rubber dip to support any floating components like bridge wires and start shrinking on the tubing before it has fully cured. This makes for a really solid connection as well as adding some strain relief. I've used the epoxy method before, but it creates a pinch point for the conductors and will eventually break them or cut through the insulation unless the cable is plugged in and left undisturbed aside from an occasional unplug for a computer cleaning or upgrade.
Th3dkbay if that’s true, it kinda proves that the company isn’t trying to squeeze every dollar in your pocket by making a connector that doesn’t require the whole device and board to be disassembled when changed, unlike other companies whose name i won’t write... 🍎
hang on, whey you disconnected and replaced the resistor, there was a second pair of solder pads along side it on the ground side, it looked to me as if you could have just unsoldered the resistor and moved it across to make it a client device?
Man, that info about the resistance values connected to CC1 just saved me a lot of headache and money randomly buying wireless chargers til I find one that works for my project
The listings linked also have female adapters. I got some C to Micro PCB adaptors a while back and converted some of my devices with internal ports. Have to open the hole as the adapter offsets the plug a few mm.
Yeah, this would make for a great follow up video. Most of my problem these days is devices that need me to plug in micro USB, because the manufacturer is still living in the past and thinks anyone still wants micro USB. We don't. Stop it, manufacturers.
"It looks a little home made" That just makes it better. Stuff that looks homemade yet good are better in the way that they have character and you can e proud of making it yourself. Awesome video as always!
@@memberwhen22 I presume you've never tried soldering components that small with a bog standard, cheap soldering iron (like the one he's using), not easy! Standard resistors are cheap enough and it saves you the headache. Those adapters add a fair bit of bulk too! This solution is far more elegant.
@@burgernthemomrailer just how it ends up going. People end up fiddling with the stupid connector several times until they get it right, at least when they don't first look at things to make sure everything's flipped the right way.
XKCD: - Situation: There are N standarts of connectors. - We must create new standart to replace them all! - Situation: There are N+1 standarts of connectors.
This and the story about bloke number n+1: So one bloke woke up this morning and decided: "I don't like adapters. Let's do something about it!". No I really don't get the motivation behind it. We put our feet in adapters to fit our shoes. We use adapters to help our babies come to this world. In a technical sense they are useful to reduce waste and provide freedom of choice. This idea isn't just rotten stupid, instead it is malignant against common human sense. What he describes as complicated mess is just the normal evolution of technical equipment(what he says in the same sentence, too). We usually don't describe our newborn as mess, only because each individual is different. That's a horrible view on the world, no matter if targeted at the living or at the things. FOR FUCKS SAKE, getting rid of all covers and shielding is the best idea I've ever seen. That is what we need on a high speed data bus. Not to question the incompatibilities you introduce maybe by violating standards, cable dimensions or with your cold soldering joints. I agree with him that adapters can be unwieldy, but that is an arbitrary personal view. One can state the exact opposite and can be right. What i really don't like is the treatment of mechanical stability. His end-product is flapping in the breeze. What i can't say about good connections with an adapter. But because this is botched all over the place, you'll buy all that shit from scratch with USB-C anyway, thanks to failure of these devices due to shameless abuse(But now I'm exaggerating, hehe). At the creator: Thanks for the great example of what too much free time does to us. Thanks for the video. At all: Stay healthy.
I’m so excited that I just found this!! My dog chewed thru the USB-C connector on the built-in cable my HomePod mini and I was stressing on how I was going to figure out the wiring colors and soldering it to another cable. These breakout boards and your explanation on the colors and resistors are a game-changer!! Thank you!
That's exactly what I was thinking. It has those two pad pairs right next to each other, presumably the other one just connects the other way. Though maybe it's the wrong resister? But still, a surface mount resister seems like a better choice than a full-sized one.
Yes, came here to say this. Don't know the proper resistor value, but I'd be surprised if it was supposed to be a different value. I'm pretty sure you'd be looking for the same current either way.
@7:04 R2 trace is clearly to GND. According to USB-C specifications, this resistance is 5.1kΩ pull-up|pull-down. (source: electronics.stackexchange.com/questions/446528/why-would-a-usb-c-adapter-have-a-pull-up-resistor )
I like your laptop camera idea! I'm totally interested! (If it's within your scope, would you consider also mobile phone cameras? I have a few that are unfixable lying around awaiting a new purpose in life) o:
@@succduc Required For you - Tax file number (TFN) or application. If you apply for a TFN online, you will need to give us your TFN application summary and your Australia Post receipt.
@@RavneelChand The reason they are often better quality is the way they hook into the device. A laptop camera is generally connected through a form of internal USB/Serial bus while on a phone it usually hooks straight to the processor(?) or processing chip of some sort. Meaning it will not only be hard to convert but also allows it to have more bandwidth. It doesnt really make sense in my head, but thats what I've been told some year ago.
There is a great deal of skill involved here which is not obvious, from prying open things, to ensure you dont short stuff when you are soldering. I am really impressed with the skill level especially figuring out the resistor for host vs device
I may be mistaking, but instead of scraping the line and adding the throughhole-resistor, you could have just moved the SMD resistor over to the other pair of pads ...
@@abdulmohsenalmousa9564 Right next to the resistor. It's easy to see the traces in the video and that's exactly why the other two pads are there. One set goes high, the other low.
As desoldering the SMD resistor may be a little hard for ppl I would suggest still scraping off the trace BUT! bridge the pads either using just junky-as technique of "solder trace" or a small length of wire.. almost as neat as proper way and also easier to do! :)
7:09 Or you could just desolder the smd resistor and solder it to the pads on the left instead of adding a massive tht resistor. 9:52 Of course there is... The pins on the micro usb connector are obviously standardized just lookup the pinout and measure continuity from the pins of the micro usb plug to the other pins that connect to the rest of the circuit. You might even be able to follow the copper traces if you don't have a multimeter.
Keyword: easy. Most people don't have a dmm. In fact, the vast majority don't. Just because you do, and I do, and the people we hang out with do, doesn't mean most purple do. The people we hang out with often have similar interests as we do, so they will have similar things we do.
I'm so glad that he's on the side of USB-C. There's so many UA-camrs who glorify it for a moment but, still for some reason try to justify lightning or magsafe. 💀
Came here thinking... Ahh ill just get an adapter, now watched the video, I'm off to grab my soldering iron and old usb device's and mod a few cameras to USB for a project idea I have .. Love how detailed you went.. Keep up the great videos! 👍
Your videos are so well produced, creative, and extremely informative. I've used knowledge you've provided in a few of my own projects and I'm no expert - but I get by thanks to you. Thanks, DIYPerks!
ok I know this is DIY, and that there was going to be some soldering, but when he pulled out that resistor, damn that's jank haha. Surely there are breakout boards sold with resistors in the sub-device configuration.
He actually butchered that USB-C mode transformation. All he needed to do was move the surface mount resistor (the little black thing in the white box) from the R1 position to the R2 position at 05:57
@@ultilink3 yes exactly I noticed that too, why would he add an enormous resistor instead of just moving the surface mount one. These adapters are made to be both host or device.
www.amazon.com/dp/B07D69482H/ref=cm_sw_r_cp_awdb_t1_ychUEb2SATTHF So this diy one doesnt need resistor? It seems like this one is what you guys talked about. The resistor is on gnd side instead of vbus side.
@@KAriedoll The slightly bigger ones that are like 2 quid for a multi-pack on Amazon (with the added bonus of either allowing you to actually revert your "new and improved" USB device back to a standard Type-A plug when needed without a soldering station XD )
USB is in fact A LOT more complicated than what he explained thanks to new naming schemes and the fact that Thunderbolt 3 also uses the same connector type but is a COMPLETELY different protocol... this guy just explained the very basics.
@@mrh5303 Exactly! I changed the old scrapped lappy cameras in my Ebay watch list to Smart phone cameras as 'spares' for that very reason. Seems obvious really..
I found this very informative and I did learn something that I didn’t know or didn’t think of but unless you like soldering and adding transistors/diodes, you are not saving anything over just buying an adapter. Still a good video.
This is really interesting. I'm terrible at soldering but even I'd dare to try things on a 2.0 cable because soldering the wires to the corresponding traces seems comparably easy.
usb still did a pretty good job at being "universal" , even tough there are multiple usb standards. Just imagine for a moment you'd had to use a different cable for a mouse than for a keyboard and some weard extra-plug for flash drives.... thats what it would be like without usb...
@@OwaisAbbasiMrWOLF The new ones are always backwards compatible, which is what gives usb C so much potential. I'd say for many years this may be the standard to go with. We can already see its widespread adaption across stubborn brands of the likes of apple, samsung, HP, so on. This cable not only provides USB 3 speeds, but at a smaller form factor than the original connectors, not to mention alternate mode. while the old variations on USB-A and B were host-slave specific (with a few exceptions, USB OTG for example), an all-in-one port that can act as both and is completely reversible shows a unique departure from older standards. I think you're undervaluing how much of a leap this connector is.
@@lord_scrubington uhm...yes they are. We difinitely reached the point where even cheaper devices don't have a headphonejack anymore. And in 2019 there was almost not a single flagship phone with a headphone jack (only the Samsung S10 series had one, but the Note 10 didnt anymore) . Its a technology from the 70s and its time to get an alternative. Also I see no reason why USB is "arguably" worse for audio devices. For example 3.5mm audio cable do not provice devices with power. Its just a really small amount only being able to power the microphone . USB C can provide much more, so speakers could be adjusted to use more of it and sound better
If you're on about taking a phone apart I think that would detract from his 'beginner' theme that he tends to go with for his videos, however if you're talking about using a phone as a camera device through software then that might be a good idea for him to explore.
@@wantomek Maybe on early 2010 phones that could be done, but not on anything since as they don't have access to the battery compartment now without literally tearing the phone apart
Search for USB C PDC004 modules, those would be better for charging as it will work with USD PD Simple sub device might not pull power from chargers if it doesn't detect the right signals.
@ but this entire video is an even bigger work around. you can get an adapter or you can buy all the various things you need to tear your device apart and soder type-c to it. Then do it again for every other device you have because you didn't buy an adapter.
@@memberwhen22 dont you think its a little disingenuous to accuse him of having no idea what hes doing? he repeatedly acknowledged the availability of adapters. as far as moving the smd i think for many people soldering an old school thru hole resistor is a lot less difficult or intimidating. As far as just buyimg adapters goes the whole point is to not need an adapter. im mostly interested in converting a bunch of stuff that is charging only (bluetooth headphones, bicycle headlight) where the need for adapters is extremely inconvenient
I’d love to see a couple of things. Firstly the external webcam (ideally with built in microphone), secondly some sort of DIY dash cam for the car using a webcam module. Your videos are fantastic, loads of great, practical projects for keeping me busy throughout lockdown.
I converted my Audio technica M50Xs to USB type C, when having just bought a Note 10+, it was the only port. I used the DAC and cable of the USB-C galaxy earphones that came with the Note 10+ and was able to connect it to a previously broken standard 3.5mm audio jack from the M50Xs. As I haven't seen any M50Xs converted to USB-C, I'm very happy with possibly have the first ones. 😂 Found this video quite interesting to see as I did this only 3 months ago. 😊
@@doblin6414 same. The irony is that the original Apple cables last forever (unless you bend them like crazy), meanwhile third-party ones last me a few months.
I've been binge-ing your content over the past week and it's been so nice. A calming, educational presence. Thanks for the (obvious and impressive) hard work you put into each of these vids.
I would love a DIY Webcam video! I tried to make one based on your "own security system" video but I cant get it to work. Defective wires or wrong wiring or something else :(
My solution was quite elegant. I got a whole bag of the smallest connectors I could find. Now I don't care if I lose one or ten of them, and they are in pretty much every bag I carry electronics around in. The upside is that I can still use the devices in the older ports any time I need to by simply removing the dongle.
Hi everyone! Hope you enjoy the video. Here's a link to the USB C breakout boards on Amazon: amzn.to/35JPunT
Hi very Great video, :D
Thank you for link 👍
DIY Perks - Thanks for pointing out the breakout boards. Those will be handy for some future projects. Once again, this was a very, very good video. 👍🏻
Matt, please do the old laptop to webcam conversion video.
Here before 300 views!!
I love how your channel actively pushes back against built in obsolescence and e-waste just by providing ways to upgrade tech and reuse hold hardware. Keep up the good work! Love your content!
ya mee too like the one that you repurposed an old laptop (even though all of the ones i tried failed );
USB C to A adapters are readily available and have the added bonus of acting as an OTG adapter for USB-C phones.
@@soundspark this is true but on some laptops the ssmc ports are to close together to put 2 usb-c to usb adapters next to each other. (i can't even plug in a hdmi cable and usb-c to usb adapter next to one another)
Yeah
usb a to usb c is realy pointless. most computers use usb a
I feel like your channel is an actual DIY channel, offering decent guides, advice, and ideas for stuff that is actually useful and actually saves time/money to do. Your channel isn't like other "DIWhy" channels, that just pump out random low quality solutions to problems that don't exist. Plus, you're helping remove e-waste and teaching people to re-use/reduce rather then just throwing it away, which is really cool.
I love this dude like he shows content that can actually be used in real life application and uses parts that are easily accessible
He does, but this one seems a bit ridiculous considering you can buy an adapter that looks way better and it barely larger than the one he made. You still have to charge your device with the old USB cable anyway.
Skills aren't necessarily easily accessible and patience is sparse in the world. Knowledge is widely available too but like I said, patience and understanding are utterly necessary.
memberwhen you have missed that the whole point is that this is better than using an adapter 🤦🏼♂️ (see 8:20)
@@NullHyp 🤦♂️🤦♂️ there are 1000s of adapters that dont have a wire and are exactly as the on he made but more quality and reliable
And requires high skill, knowledge and various gadgets. yet it is fascinating for people, more patient and skilled then your average Joe like myself.
I was blind, now I can C
good one lol
😂😂
😂
Ha ha ha
Why do Java programmers wear glasses? Because they cannot C#.
I've stayed away from the hardware side of computers for a decade or more but this bloke might just pull me back in. Subscribed.
It’s addictive honestly. In my spare time I research PC components.
Patton Durio ive spent 10 days researching my dream pc. its fun.
Can you make a video on converting a tablet to USB-c
Female connector ... thx1000000
I'm about to break out my old tools
@@redbugg99 I think most of the connectors are SMD, so uhh if you have steady hands and specialised tools, sure go for it
This guy always looks like he just remembered a funny joke and he's about to tell you lol
I can't get that image out of my head now. Thanks.
Tf haha
haha yea I thought I was the only one good thing it not just me,
NASA official this so accurate
@NASA Official, you're partly right: he remembered it, and he's tickled because he's NOT telling you! 🤣
7:04
You could have just added a solder blob between Ground and R1 after scraping the trace to V+.
Or you just remove R1 and solder it where it says R2.
That would save you the hassle of soldering this THT resistor onto the board.
Im not a well versed in circuitry, but I did wonder why he didn't just do that, because all he said was its a resistor configuration, and it defaults with the resistor there.
Yeah someone clearly went to the trouble of making these boards as easy as possible to switch, and he just destroys the trace and slaps an absolute unit of a resistor on there. Just sliding the resistor over to the other pad means you don't need to have spare resistors on hand, and you don't have to guess at resistor voltage.
I also was surprised! This info should be included in the video!
@@armLocalhost Its possible he did it this way to be more approachable for novices. I understand there are like 3 kinds of circuit components delineated by the method of soldiering. And that resistor looks like one of the harder ones to play with. But again, i know nothing so I could be wrong.
@@Justowner I disagree, from a novice standpoint it is harder to scrap the pad, track down the correct resistor, solder it in place without the leads making contact with anything else. While it is harder to work with small components (ie. surface mount) and when de-soldering the resistor it is useful to actually add some solder (due to lead solder having a lower melting point and flowing easier than unleaded solder used in manufacturing the component), it is well within the range of a novice. (If someone feels uncomfortable with moving the resistor than this is not a project the novice should be undertaking considering the risk level to the more expansive computer).
Can't wait till everything USB-C
One year later: new "USB-C mini" is here
Pretty much. Type C adoption rate is slower than connectivity advancement. And bastard companies like to reinvent the wheel with proprietary connectors.
i know things like that have happened many times and maybe im being too optimistic ( though im pretty pessimistic generally) but i really think the usb c connector will be around as the primary physical format for awhile. the protocols will continue to be updated but i think usb c has at least another 5 to 10 years. hopefully more. its hard to imagine lutgrowing it any time soon especially considering what thunderbolt 3 can put through it
@@_BangDroid_ it took USB 1 a few years to be popular on devices and the expense that went into creating USB C is too much for companies to give up on this early.
as long as smartphone companies adopted USB C it will still be leading except when they go full wireless which isn't that far.
not sure, even micro usb was a step in the right direction, remember that every manufacturer had different connectors before! I'm optimistic
I love how be breaks down everything into easy to understand terms. If I had a teacher like him in high school or even college, I'd probably learn more things easily.
tip: at 7:13 you have not to scrape copper off the pcb. you simply could unsolder the resistor R1 and place R2 instead.
Saw this as well
as he was explaining it I was wondering why he didn’t do that
Yes, but it will require much more precision
@@akeem2983 Tweezers aren't that difficult to come by
that resistor has higher value than the needed 5.1k, so u cant
Dude, i have seen just 2 of your videos yet...
You are going to be the reason I'll be dismantling all my electronics
Matt, I seriously love your content, and it puts a smile on my face every time I see a new upload. Whether it is giving life to old devices such is this video, or creating something from the ground up, you do so in such a fantastic way. Thank you for all the hard work you very clearly put into your videos so that those of us that are interested in trying to do these types of things, are able to, through very clear instructions. You're the best!
thats exactly what i thought and im watching the dude for the first time
i think the same
Completely agree
@@oscr_zen long time subcriber here, yeah the quality he puts out is on a whole another level its so professional it doesn't even look diy. the tutorial from start to end product looks so clean and he always comes up with some the most simple and effective mechanisms, he's so creative.
(7:11) It looks like there's a trace to the ground pad, and all you'd need to do is desolder/resolder the existing smt resistor on the adjacent pair of pads.
using a tht resistor instead of smd kills me from the inside
The pull-up value of a DFP resistor is very different from the pull-down value of an UFP resistor. He would need a different SMT resistor anyway, which I imagine he doesn't have in his drawers.
@@jeromevuarand3768 Would still be easier to desolder the existing resistor, rather than cut the trace.
@@tanielgulian419 Also, wasn't that a half Watt resistor!
@@Ryuseigan By the looks of it
11:18 This is pure diy satisfaction. So cool that the reversible design choice already paid dividends.
what an incredible video. like others have said, the focus on reducing waste and keeping older tech relevant is such a refreshing perspective in today’s culture
so sastifying to see that usb micro b camera turned into type c
and the fact that it just worked too
I love it
I looked up the Flir One Pro Type-C for my android and it's $295 😱
it *isn't* being turned into type C
Micro-b is effectively USB 2.1, which has far lesser power and data transfer speeds than the USB 3.2 Gen 2 that type-A uses.
hello there, we meet again
@@lord_scrubington Sorry but there isn't relation beetwen usb versions and plug versions
7:05 can't you just move the existing resistor to other pads next to it? Seems to me that's how it's supposed to be done.
OR! Just jump the pads and scrape the trace?
I almost had a heart attack while screaming, "just unsolder a move the resistor"
@@DavidTelesPortugal hahahahhahahhaha me too!
You can, but most people aren't too good at soldering SMD components so it's technically easier the way he did it for most people so I guess that this is the reason why he did it like that. Though it kinda hurts my eyes mashing non SMD components onto such a tiny board.
Also it's more likely for people to have normal resistors at home than SMD components and DIY Perks projects are intended to be done with stuff you are more likely to have at home.
In fact yes one side of both pads connects to the pins on the USB while the other pins connect to VCC and GND. Swapping the position of the resistor would in fact change the mode
Great video Matt as usual. CC1 and CC2 can be configured for sinking (Rd = 5.1K) or sourcing (Rp = 51K) the power. On the board, there is a soldering pad named R2. This pad is connected to GND, so simply remove the 51K Rp resistor from R1 pad and put 5.1K Rd resistor on R2 pad. By doing so you will pull down both CC pins (A5 and B5) to GND and so your device will sink power (sub-device) instead of sourcing it (host-device).
thx for this, it was instrumental
CC1 and CC2 are names that are only used for receptacles (sockets), not for plugs. For a USB-C plug those pins are called CC (A5) and VCONN (B5), and for a plug integrated into a device (as in the examples in this video) only the CC pin has a 5.1K resistor to GND (for a sink) or 56K resistor to VBUS (for a source), while the VCONN pin is left unconnected.
And while a sink device with a USB-C _receptacle_ should indeed pull down both CC1 (A5) and CC2 (B5), each of these two pins *must* have its own separate 5.1K pulldown to GND. If you erroneously tie CC1 and CC2 together and use a single shared pulldown then your device will fail to receive any power when using certain cables (specifically active or tagged cables).
he has to keep up the illusion that surface mount soldering is too hard for westerners or youtube isn't going to continue to push him views and subscribers.
@@MatthijsvanDuin So what are you saying? That you can't just solder a resistor to the R2 pads?
@@micnolmadtube I was saying majdinj's description of what happens when you do this procedure (on an electrical level) was incorrect, and they also had the pull-up resistor value wrong. However, the procedure should still yield the desired result of reconfiguring the role of the board.
Specifically, if a USB-C male connector board has one resistor placed and one spot for an unplaced resistor then it seems very likely that indeed these are for pulling CC either up or down to configure the role of the board:
- 5.1 kΩ pull-down from CC to GND for sink role, or
- 56 kΩ pull-up from CC to VBUS for source role (can alternatively be 22 kΩ if you can safely source 1.5A of current, or 10 kΩ if you can safely source 3A of current)
Hence, if the board comes configured into source role by the presence of a pull-up resistor, then removing that resistor and soldering a 5.1 kΩ resistor at the _other_ location should reconfigure the board into sink role.
For a USB-C _female_ connector board things are similar except it has two CC pins to deal with, hence it will need either two pull-ups (one from CC1 to VBUS and one from CC2 to VBUS) or two pull-downs (one from CC1 to GND and one from CC2 to GND). The resistor values remain the same.
Here's a full description of the all four legacy USB 2 to USB-C conversions:
(any pins not mentioned are unused and must be left unconnected)
USB 2 host/source to (male) USB-C plug:
pins A1,B1,A12,B12 and shield are GND and must all be connected together
pins A4,B4,A9,B9 are VBUS and must all be connected together
pin A5 is CC and needs a 56 kΩ resistor to VBUS
pin A6 is D+
pin A7 is D−
pins B6 and B7 have no contacts in a USB-C plug
USB 2 device/sink to (male) USB-C plug:
pins A1,B1,A12,B12 and shield are GND and must all be connected together
pins A4,B4,A9,B9 are VBUS and must all be connected together
pin A5 is CC and needs a 5.1 kΩ resistor to GND
pin A6 is D+
pin A7 is D−
pins B6 and B7 have no contacts in a USB-C plug
USB 2 host/source to (female) USB-C receptacle:
pins A1,B1,A12,B12 and shield are GND and must all be connected together
pins A4,B4,A9,B9 are VBUS and must all be connected together
pin A5 is CC1 and needs a 56 kΩ resistor to VBUS
pin B5 is CC2 and needs a 56 kΩ resistor to VBUS
pins A6 and B6 are D+ and must be connected together (as close to the connector as possible)
pins A7 and B7 are D− and must be connected together (as close to the connector as possible)
USB 2 device/sink to (female) USB-C receptacle:
pins A1,B1,A12,B12 and shield are GND and must all be connected together
pins A4,B4,A9,B9 are VBUS and must all be connected together
pin A5 is CC1 and needs a 5.1 kΩ resistor to GND
pin B5 is CC2 and needs a 5.1 kΩ resistor to GND
pins A6 and B6 are D+ and must be connected together (as close to the connector as possible)
pins A7 and B7 are D− and must be connected together (as close to the connector as possible)
2 years in and we still don't have an actual product. You are always ahead of your time. Never stop creating!
2 years later 🥲
the way this man has always got a smile on his face really makes me happy, i know he’s suffered with depression before and it’s so so wholesome to see him channeling his hidden happiness with these videos. keep up the good work matt, we love and appreciate you and every project you make. you’re a huge inspiration to many including myself to get into DIY projects ❤️
Wait what really, I never knew that. By the way keep up the good work Matt!
Ditto. Do you know him irl or how do you know such things about his personal life?
@@Staroy no no, i wish i did lol. i follow him on twitter and he’s mentioned it a couple times before. i wish him all the best in life
He must've been quite a cute baby with such an expressive face.
I ddin't expect Theon Greyjoy to be this good at electronics.
highsoap underrated comment 👏🏽
Reek had to do something after that bad part of his life
Betcha USB D will come out the week after I finish upgrading my devices.
USB-D would not help my laptop.
drippingwax What about USB E?
@@kzed USB-1701-E?
drippingwax nah i’m just joking lol
Usbeetroot
Great video! For your full breakout board though, all you needed to do was change the position of the resistor in R1 to R2
This is where you use the "I've learned something today"
r/TIL
You can actually fry your laptop, not worth it.
Plus that chip with the resistance on that gren thing will fry too.
Who else is watching knowing damn well they're not going to utilize any of this
Me
I might try this for a much older device to be honest something that I have laying around the house that I'm just not using anymore
I definitely would not fuck with anything that I'm currently using though for fear of destroying it
Me for one. But I like this, I will keep watching cos maybe, someday I'll do something.
More like I watched this to make sure that trying it is actually a waste of time.
For me, this smiling genius just proved: The more things change, the more they remain the same. In the old days if you broke a lamp cord, it was fairly easy to fix DIY. The problem nowadays is you have to have eyeballs the size of footballs to see what you are doing-at my age. Thanks for the video!!!
I agree at my age it's a extremely difficult to see things as well.
Micro micro then Nano.
When is enough enough
Pro dongle: Most of them have multiple ports (not shown in this video).
However, if you have plenty of ports already (not shown on your computer), that's nice. Great work
"...so you can do thermal selfies, which is kind of cool..." I see what you did there ...
@Nikcats cool. Thermal. 😒
more like kinda hot...because body temp is 37 C.
Yeah, it is cool. None of us are hot
.
USB C: Just buy a dongle!
Matt: No, I don't think I will.
He built his own dongle instead... Big whoop
@@ForeverMan did you watch the video? don't think you did.
ah the dongle life
Matt is one of the rare few that proves you don't have to be an Apple Sheeple.
Man Lil I like my Apple gear and also liked this video. Try being one of the rare few who believe not everything is black and white.
I was thinking this was gonna be a long video about usb dongles was not expecting you to actually try it. Then i realized youtube is finally recommending me videos of actual DIY for once.
Don't let the multimillion dollar corporations see this
I can't believe Logitech still haven't released a USB-C receiver *facepalm*
they probably will never do so as it will be a reason for some to buy some new pricey mouses instead of just switching to a new dongle... profit wise!
Most USB C only devices do actually have Bluetooth and as far as I know the Logitech unifying system works with BT as well.
@@jeff4992 but logitech doesn't right? It's always need their stupid receiver, right?
@@anoirbentanfous But they still don't have any expensive USB c Logitech mice?
@Hycrycer Bluetooth is extremely slow when using some of Logitech features like switching device. It takes a good 3-4 seconds to change device compared to the Logitech receiver being instant. Also Bluetooth has a lot of other downsides.
The fact that Logitech still doesent sell a usbc reciver feels rediculos.
I mean, if you look at this dood's plug, it will break right off with even slight leverage. That's like 99% of the reason Logitech has a nano receiver.
Nano receivers are a lot harder on USB-C, because you can't hide part of the circuitry inside the USB plug like you can with USB-A.
Guys, you can sync your mouse or keyboard directly to the laptop's bluetooth, without the need for a nano receiver which is simply a mini bluetooth adapter
@@PudinAsesino Logitech's Unifying is not the same as bluetooth, but some of their mice have both. Even for those, however, the unifying adapter tends to have better tracking, as it has a higher/smooth poll rate.
@@PudinAsesino is there any workaround for 2.4ghz reciever mouse?
@Paul Flusk Bluetooth is absolutely horrible for any kind of real time application. Bluetooth mice feel like you're dragging the cursor around on a rubber string.
7:08 couldn't have you just moved that resistor to the R2 pad? Looks like that one is going to gnd
I thought the same lol
Had the same thought. Looks pretty clear that those pads are meant to be configured by the end user if needed. Could even use the same surface mount resistor.
Yep, my thought (or yelling at my monitor) as well.
Yes, that's certainly meant that way.
It's less fun that way though :P
Never thought I'd want to see a guy play with USB sticks.
All jokes aside, this video was great, love to see you build projects. Great job on another thing that improves your daily life.
C : I am reversible
Jack3.5mm entered the chat
C left the chat
Yeah, reversible is still inferior to Circular, as they can be inserted in any direction.
360 plugablity
C isn t better because is reversible ,but is alot faster ..... oh wait it wasn t iphone who came first with data /power cable reversible?
Now we know the beef between us and china step by step >.,
Owletterishere long live dc barrel plugs
@@ssj5AX are you sure about the USA and China thing
My gosh, those THT resistors in place of SMDs. My eyes as an electrician hurts but great idea though!
ahahh same. Surely its not much effort to order some at the same time as the breakouts. And it looks like R1/R2 correspond to the host/sub config? So potentially able to change it without any other components if the pullup/pulldown is the same value
edit: just saw a bunch of other comments with the same observations. Also cutting the trace to Vbus and bridging it to gnd should have worked
That soldering, loose data wires, it's some hardcore stuff over here, but it awesome that it works that way anyone can do it 😁 no hate, not everyone is good at everything 👍🏻
@@TheSecondSomething Precisely, the pads are there, bridging is also valid option, but still no hate or anything as the idea showed in the video is great
@@jaroslavpetardyson5666 I actually found it more comfortable, as someone with zero experience, that they are not like factory-made, but are flimsy and funny, it's always scary to try out something new, like DIY, and your devices look abysmal in comparison. This just reassures you that you can try and it's not a problem if they look kinda meh.
Can someone provide an example of what better would look like?
DIY Perks is the natural enemy in the wild to "Planned Obsolescence!"
Not untill he covers installing AOSP, or Linux on old macbooks.
i dont think things changed in this market for that reason. Royalties though make you question this, but think about how fast consumer electronics have changed over the last twentie years.
My preferred method for encasing dongles like receivers and flash drives is to use modeling clay. Wrap board and wires in cello-tape, mold the clay around it, pull it out and bake to get your new shell. You can then remove the tape and affix the shell with epoxy or hot glue.
For cables, I usually thread on a few pieces of heat shrink, usually 2 of each size between the size of the cable and the size of the connector. I then use silicone or rubber dip to support any floating components like bridge wires and start shrinking on the tubing before it has fully cured. This makes for a really solid connection as well as adding some strain relief. I've used the epoxy method before, but it creates a pinch point for the conductors and will eventually break them or cut through the insulation unless the cable is plugged in and left undisturbed aside from an occasional unplug for a computer cleaning or upgrade.
The connector board is probably separate so they could slap a Lightning connecter board in there.
Connectors are also more likely to break so if it breaks you can get it fixed by just putting in a new board with the port on it :D
Th3dkbay if that’s true, it kinda proves that the company isn’t trying to squeeze every dollar in your pocket by making a connector that doesn’t require the whole device and board to be disassembled when changed, unlike other companies whose name i won’t write... 🍎
@@marioghioneto1275 apple
@@marioghioneto1275 idk if you know but it's pretty common practice Apple, Samsung etc. Basically do this in almost all their devices
I’d love to see a web cam “how to” but I want you to make it look like an old Daguerreotype glass plate camera just because it would look cool.
With USB-C.
I want to extract the webcam from a dead laptop.
@@louistournas120 he made a video on that
Maybe add a hardware disconnect switch to the webcam
hang on, whey you disconnected and replaced the resistor, there was a second pair of solder pads along side it on the ground side, it looked to me as if you could have just unsoldered the resistor and moved it across to make it a client device?
If you have the soldering iron he's using, it's... a fair bit trickier to do, but you could do it.
Nathan Savage good spot
Desoldering such small elements isn't simple
I assumed the same thing...
It is a bit tricky with a soldering iron, it would be better with a hot air rework station.
Man, that info about the resistance values connected to CC1 just saved me a lot of headache and money randomly buying wireless chargers til I find one that works for my project
Would love to see if the reverse is possible: adding USB type C charging/data ports to older Micro USB devices like game controllers
Tim Romero hmmm you have to think tho if they are using usb c they may have all those extra wires
Me too.
The listings linked also have female adapters. I got some C to Micro PCB adaptors a while back and converted some of my devices with internal ports. Have to open the hole as the adapter offsets the plug a few mm.
It should be, as long as the device that uses it is does not require a lot of power or you're expecting sky high transfer speeds.
Yeah, this would make for a great follow up video. Most of my problem these days is devices that need me to plug in micro USB, because the manufacturer is still living in the past and thinks anyone still wants micro USB. We don't. Stop it, manufacturers.
"It looks a little home made" That just makes it better. Stuff that looks homemade yet good are better in the way that they have character and you can e proud of making it yourself. Awesome video as always!
I _would_ like but it's at 69
@@watema3381 amazingly, it's 2 years later and it still is at 69
@@namewarvergeben Let us meet again in two years time!
R2 resistor position seems to be just for what you're trying to do. You could move the resistor there.
@@memberwhen22 here's a fun guy
@@memberwhen22 He mentions adapters like five times.
@@memberwhen22 I presume you've never tried soldering components that small with a bog standard, cheap soldering iron (like the one he's using), not easy! Standard resistors are cheap enough and it saves you the headache. Those adapters add a fair bit of bulk too! This solution is far more elegant.
@@memberwhen22 he specifically stated that he didnt want to use an adapter.
@@memberwhen22 I think you missed the point of this video
I learned more about electrical circuits here than in school. Keep up the great work, you're a legend
Best part of USB C: NO MORE WRONG SIDE! HOLY SHIT YES!
the worst part of type C, less robust than type A...
Honestly I don’t understand why people have so much trouble with that
@@burgernthemomrailer just how it ends up going. People end up fiddling with the stupid connector several times until they get it right, at least when they don't first look at things to make sure everything's flipped the right way.
Headphone jack users : *laughs in 360*
@@mikeycrackson they already did, you just havent bought them yet...
XKCD:
- Situation: There are N standarts of connectors.
- We must create new standart to replace them all!
- Situation: There are N+1 standarts of connectors.
I think that you probably attended an online math class before watching this
@@sauravprashar induction memes
There's *always* a relevant xkcd
This and the story about bloke number n+1:
So one bloke woke up this morning and decided: "I don't like adapters. Let's do something about it!".
No I really don't get the motivation behind it. We put our feet in adapters to fit our shoes. We use adapters to help our babies come to this world. In a technical sense they are useful to reduce waste and provide freedom of choice.
This idea isn't just rotten stupid, instead it is malignant against common human sense. What he describes as complicated mess is just the normal evolution of technical equipment(what he says in the same sentence, too). We usually don't describe our newborn as mess, only because each individual is different. That's a horrible view on the world, no matter if targeted at the living or at the things.
FOR FUCKS SAKE, getting rid of all covers and shielding is the best idea I've ever seen. That is what we need on a high speed data bus. Not to question the incompatibilities you introduce maybe by violating standards, cable dimensions or with your cold soldering joints.
I agree with him that adapters can be unwieldy, but that is an arbitrary personal view. One can state the exact opposite and can be right. What i really don't like is the treatment of mechanical stability. His end-product is flapping in the breeze. What i can't say about good connections with an adapter.
But because this is botched all over the place, you'll buy all that shit from scratch with USB-C anyway, thanks to failure of these devices due to shameless abuse(But now I'm exaggerating, hehe).
At the creator: Thanks for the great example of what too much free time does to us. Thanks for the video.
At all: Stay healthy.
Jedzia Dex sorry your comment makes no sense to me
You can get adapters that are just about that small, but it was still super interesting to see how simple it would be to convert.
I’m so excited that I just found this!! My dog chewed thru the USB-C connector on the built-in cable my HomePod mini and I was stressing on how I was going to figure out the wiring colors and soldering it to another cable. These breakout boards and your explanation on the colors and resistors are a game-changer!! Thank you!
"Now the first thing is actually-
Chop the end off."
Straight forward to the point 😂
They do that to baby boys in some parts of the world too
@@RJPhotographics Yeah, but it's not as bad as people make it out to be. It's actually good for them.
@@namelessdisasters Circumcision is only indicated if there is phimosis that can't be resolved without any other approach.
- Said every Jewish parent of an 8 day old ever
@Josh -_- Takes like 0.5 seconds to clean under the shower, and protects the glans skin, so... not so much of a chore to wash yourself
It looks like you can just move the resistor from the R1 position to the R2 position, rather than adding a extra huge one and cutting traces.
That's exactly what I was thinking. It has those two pad pairs right next to each other, presumably the other one just connects the other way. Though maybe it's the wrong resister? But still, a surface mount resister seems like a better choice than a full-sized one.
Yes, came here to say this. Don't know the proper resistor value, but I'd be surprised if it was supposed to be a different value. I'm pretty sure you'd be looking for the same current either way.
That stuck out to me like a sore thumb! I assumed that perhaps he knew better than I, but now I'm really thinking twice about that...
@7:04 R2 trace is clearly to GND. According to USB-C specifications, this resistance is 5.1kΩ pull-up|pull-down. (source: electronics.stackexchange.com/questions/446528/why-would-a-usb-c-adapter-have-a-pull-up-resistor )
You probably can, but I tried and it didn’t work, then I tried what he did and it worked fine, plus it’s easier
I like your laptop camera idea! I'm totally interested!
(If it's within your scope, would you consider also mobile phone cameras? I have a few that are unfixable lying around awaiting a new purpose in life) o:
Maan Alaulaqi yes pleaaase I have so many old cameras from blackberry and S3s lol
I think most people have broken phones lying around rather than broken laptops lol.
Cameras in phones are typically much better quality than those in laptops a well
@@succduc Required
For you - Tax file number (TFN) or application. If you apply for a TFN online, you will need to give us your TFN application summary and your Australia Post receipt.
@@RavneelChand The reason they are often better quality is the way they hook into the device.
A laptop camera is generally connected through a form of internal USB/Serial bus while on a phone it usually hooks straight to the processor(?) or processing chip of some sort.
Meaning it will not only be hard to convert but also allows it to have more bandwidth.
It doesnt really make sense in my head, but thats what I've been told some year ago.
There is a great deal of skill involved here which is not obvious, from prying open things, to ensure you dont short stuff when you are soldering. I am really impressed with the skill level especially figuring out the resistor for host vs device
I may be mistaking, but instead of scraping the line and adding the throughhole-resistor, you could have just moved the SMD resistor over to the other pair of pads ...
Garrrrry Glendownie
Exactly what I thought. It would certainly be much neater and smaller, but it would also be more difficult for the soldering novice.
What other pair of pads, can you elaborate please ?
@@abdulmohsenalmousa9564 Right next to the resistor. It's easy to see the traces in the video and that's exactly why the other two pads are there. One set goes high, the other low.
As desoldering the SMD resistor may be a little hard for ppl I would suggest still scraping off the trace BUT! bridge the pads either using just junky-as technique of "solder trace" or a small length of wire.. almost as neat as proper way and also easier to do! :)
7:09 Or you could just desolder the smd resistor and solder it to the pads on the left instead of adding a massive tht resistor.
9:52 Of course there is... The pins on the micro usb connector are obviously standardized just lookup the pinout and measure continuity from the pins of the micro usb plug to the other pins that connect to the rest of the circuit. You might even be able to follow the copper traces if you don't have a multimeter.
Please explain.. I can't quite understand it. A doc or article would suffice, I think..
in all 3 cases he could desolder and solder the smd resistor to the other pad without scratching the pcb and cutting traces
Keyword: easy.
Most people don't have a dmm. In fact, the vast majority don't. Just because you do, and I do, and the people we hang out with do, doesn't mean most purple do. The people we hang out with often have similar interests as we do, so they will have similar things we do.
@@xenonram To be fair, the type of person interested in doing something like shown in this video either has or should have one.
The engineer and DIYer in me both LOVE this.
Combat engineers like me doesn't really know about engineering
@@draz9765 cool
I'm so glad that he's on the side of USB-C. There's so many UA-camrs who glorify it for a moment but, still for some reason try to justify lightning or magsafe. 💀
Came here thinking... Ahh ill just get an adapter, now watched the video, I'm off to grab my soldering iron and old usb device's and mod a few cameras to USB for a project idea I have .. Love how detailed you went.. Keep up the great videos! 👍
Your videos are so well produced, creative, and extremely informative. I've used knowledge you've provided in a few of my own projects and I'm no expert - but I get by thanks to you. Thanks, DIYPerks!
ok I know this is DIY, and that there was going to be some soldering, but when he pulled out that resistor, damn that's jank haha. Surely there are breakout boards sold with resistors in the sub-device configuration.
He actually butchered that USB-C mode transformation. All he needed to do was move the surface mount resistor (the little black thing in the white box) from the R1 position to the R2 position at 05:57
@@ultilink3 yes exactly I noticed that too, why would he add an enormous resistor instead of just moving the surface mount one. These adapters are made to be both host or device.
@@ultilink3 stopped watching at that point. Very obvious that is the proper way.
Ok can you guys re explain about that. Im totally dumb on circuit board. Little more detail for me please? I know nothing about the circuit. 😩
www.amazon.com/dp/B07D69482H/ref=cm_sw_r_cp_awdb_t1_ychUEb2SATTHF
So this diy one doesnt need resistor? It seems like this one is what you guys talked about. The resistor is on gnd side instead of vbus side.
this video has been in my Playlist for 2 years. I am thinking to do this someday, Thank you
DIY Perks: how to convert devices to usb-c
Me: *glues an adapter/dongle to the usb-a wire*
the same here.
yeah, this is big brain time.
Me: Buy a small sleek usba to usbc adapter $7. Done.
Me: goes and buys the one he said was "significantly" bigger then the one he made cuz it was just slightly bigger
@@KAriedoll The slightly bigger ones that are like 2 quid for a multi-pack on Amazon (with the added bonus of either allowing you to actually revert your "new and improved" USB device back to a standard Type-A plug when needed without a soldering station XD )
The best DIY explained about USB world in an awesome way ever !!! 😍😍😍 Love all your works and projects !
USB is in fact A LOT more complicated than what he explained thanks to new naming schemes and the fact that Thunderbolt 3 also uses the same connector type but is a COMPLETELY different protocol... this guy just explained the very basics.
@@ElZamo92 Oi! lemme get uh USB 3.1 gen 2, no wait gen 1, you know what I'll stick with 2.0
Yes please! Show us how to make a Webcam from old devices (smartphones, pc, tabs) by HW hack or SW!
Thanks, and congrats, great content!
he already has ua-cam.com/video/CouxmNqxO4A/v-deo.html
@Evangelo Goodwin, Mat asked at the end of the video if the viewers wanted him to do a video specifically about making a web cam.
Canon released some new software that allows you to use their DSLRs as a web cam.
A webcam made from an old smartphone would be substantially higher video quality than one from an old laptop.
@@mrh5303 Exactly! I changed the old scrapped lappy cameras in my Ebay watch list to Smart phone cameras as 'spares' for that very reason. Seems obvious really..
I found this very informative and I did learn something that I didn’t know or didn’t think of but unless you like soldering and adding transistors/diodes, you are not saving anything over just buying an adapter. Still a good video.
This is really interesting.
I'm terrible at soldering but even I'd dare to try things on a 2.0 cable because soldering the wires to the corresponding traces seems comparably easy.
When there are only type C devices left, we will get type D.
Nah Type-C will be around for a loooong time.
Don't worry mate, you'll get the D anyway. ;)
@@szentmihalyigep bruh
@@Gepstra 10 years later... :-)
haa 2025 We'll see
USB: when universal things stop being universal.
usb still did a pretty good job at being "universal" , even tough there are multiple usb standards. Just imagine for a moment you'd had to use a different cable for a mouse than for a keyboard and some weard extra-plug for flash drives.... thats what it would be like without usb...
@@danieleckert5008 Yes i know, it is just a joke, because you need to ask a question "which one" when talking about a USB cable.
Lol... when someone doesn't get a universal joke
When the old one gets barely universal they introduce new one ...so i don't think that it is ever going to be universal 🤣🤣
@@OwaisAbbasiMrWOLF The new ones are always backwards compatible, which is what gives usb C so much potential. I'd say for many years this may be the standard to go with. We can already see its widespread adaption across stubborn brands of the likes of apple, samsung, HP, so on. This cable not only provides USB 3 speeds, but at a smaller form factor than the original connectors, not to mention alternate mode.
while the old variations on USB-A and B were host-slave specific (with a few exceptions, USB OTG for example), an all-in-one port that can act as both and is completely reversible shows a unique departure from older standards. I think you're undervaluing how much of a leap this connector is.
This is without a doubt the most convoluted kludge I've seen on UA-cam.
Next: How to convert your 3.5mm headphone to usb type c.
underrated comment, this
I have a s20 and I when I got it I never knew that the headphones were usb-c. Luckily I use airpods, so I can listen and charge at the same time.
Why would you do that?
Just why?
Audio jack works fine and is not being phased out any time soon.
USB is arguably worse for audio devices.
@@lord_scrubington but you see, headphone jacks are slowly but surely not existing on phones
@@lord_scrubington uhm...yes they are. We difinitely reached the point where even cheaper devices don't have a headphonejack anymore. And in 2019 there was almost not a single flagship phone with a headphone jack (only the Samsung S10 series had one, but the Note 10 didnt anymore) . Its a technology from the 70s and its time to get an alternative. Also I see no reason why USB is "arguably" worse for audio devices.
For example 3.5mm audio cable do not provice devices with power. Its just a really small amount only being able to power the microphone . USB C can provide much more, so speakers could be adjusted to use more of it and sound better
if you do the webcam video, also go for transforming old phones into webcams. Making them power on without a battery could be a whole video too.
If you're on about taking a phone apart I think that would detract from his 'beginner' theme that he tends to go with for his videos, however if you're talking about using a phone as a camera device through software then that might be a good idea for him to explore.
DIYs using phone parts is a great idea
@@amirpourghoureiyan1637 I was going for the droidcam and alike software solutions, and soldering the battery leads.
@@wantomek Maybe on early 2010 phones that could be done, but not on anything since as they don't have access to the battery compartment now without literally tearing the phone apart
@@amirpourghoureiyan1637 I was thinking disassembling the battery and powering it through its protection circuit.
YEEEEESSSSS MAT WEEBCAM.
HE IS THE FIRST GUY THAT MAKES YOU LOVE HIS CONTENT MORE THAT HIS ACCENT. I LOVE THIS CHANNEL MORE REGULAR VIDS
This guy is so trustworthy I listen to the whole sponsorship
i really like the way you keep smiling while recording :D
Yes you are right 👌
Time to rip open my old PSP and change the DAMN charger into a USB type C.
And then a battery mod to a large li-ion for good measure 😅
Search for USB C PDC004 modules, those would be better for charging as it will work with USD PD
Simple sub device might not pull power from chargers if it doesn't detect the right signals.
4:41 - "SPOIWO LUTOWNICZE ... my face start smiling when recognize polish solder in UK :P
Same reaction here, respect for the Polish solder :D
same here :)
Can't wait till everything USB-C
4 years later: custom biggest usb c cable on earth
port conversion?
Apple: no problem just use ADAPTER!
DIY Perks: No that is not a solution!
A workaround is not a solution.
and where is the adapter sir...
Apple: it cost you $500 + a sticker $550
@ but this entire video is an even bigger work around. you can get an adapter or you can buy all the various things you need to tear your device apart and soder type-c to it. Then do it again for every other device you have because you didn't buy an adapter.
Exactly! Just use a Type-C to Type-A adapter that is one piece with no cable
"why are you carrying a piece of chewed gum in your pocket?"
"thats just my wireless receiver"
Sugreeeew
lol
lol
Next: converting micro usb phone to usb type c 🤣
That's what we want
Or an iPhone
@@Ludix147 Or a Samsung
That would be nice to see🦧
Or a motherboard *
4 years later and Logitech still doesn't make a USB Type-C unifying receiver 😒
Wouldn't it be easier to just move the SMD resistor on the breakout board?
Otherwise I really like the tutorial to give old devices a new life.
@@memberwhen22 Lol check out 8:35
Like USB 4 faster than 3.0 SuperSpeed with Type-C
@@memberwhen22 dont you think its a little disingenuous to accuse him of having no idea what hes doing? he repeatedly acknowledged the availability of adapters. as far as moving the smd i think for many people soldering an old school thru hole resistor is a lot less difficult or intimidating. As far as just buyimg adapters goes the whole point is to not need an adapter. im mostly interested in converting a bunch of stuff that is charging only (bluetooth headphones, bicycle headlight) where the need for adapters is extremely inconvenient
Usb a: who are you?
Usb-C: I’m you, but in all versions
I'm you, but better.
I’m you, but reversible.
I'm you, but on both sides of the cable.
@@honk4311I'm you, but you will never know what i actualy said.
@@itspop4real272 I'm you, but well played.
after seeing this video, i said to myself "just buy a dongle"
just kidding, learned a lot from this video
Especially if you can find that idiotic one with the pointless 6" of stiff cable.
waba
9:04 Jokes on you, my phone is so old that i still that one lol
I’d love to see a couple of things. Firstly the external webcam (ideally with built in microphone), secondly some sort of DIY dash cam for the car using a webcam module.
Your videos are fantastic, loads of great, practical projects for keeping me busy throughout lockdown.
You can get USB-C OTG adapters that will do the same job without having to mess with the resistor.
I converted my Audio technica M50Xs to USB type C, when having just bought a Note 10+, it was the only port. I used the DAC and cable of the USB-C galaxy earphones that came with the Note 10+ and was able to connect it to a previously broken standard 3.5mm audio jack from the M50Xs. As I haven't seen any M50Xs converted to USB-C, I'm very happy with possibly have the first ones. 😂
Found this video quite interesting to see as I did this only 3 months ago. 😊
very cool u should do a vid about it
@@Reedith Tried putting it up on Reddit, just not great with it yet. I'll remember to come back to this comment when I get it posted 😄🙌
I just got my first soldering kit and this is my new favorite channel :D
I love how sugru always makes its way into the video
Me watching this video**
My phone with micro USB : Don't even think about it
;D
every apple fanboy cries too , lol, stuck with their stupid apple cables that break within a week of use
@@girlsdrinkfeck really are they that fragile
girlsdrinkfeck I have used the same Apple cable for almost a year and it has not broke.
@@doblin6414 same. The irony is that the original Apple cables last forever (unless you bend them like crazy), meanwhile third-party ones last me a few months.
Absolutely brilliant! I wish ALL You Tubers would do presentations as professional as this.
I've been binge-ing your content over the past week and it's been so nice. A calming, educational presence. Thanks for the (obvious and impressive) hard work you put into each of these vids.
I've been thinking this for a while and I am happy to confirm that DIY Perks is one of the best channels out there. What an insane value you give us
I would love a DIY Webcam video!
I tried to make one based on your "own security system" video but I cant get it to work. Defective wires or wrong wiring or something else :(
You can also just use your phone camera as a webcam (which is probably better than an old laptop anyway)
Looks like everyone is growing a quarantine beard
I know I am. LOL
It's just a sign that we are in the darkest timeline ... #sixseasonsandamovie
I shaved my head.
@@louistournas120 I shaved mine too, only because I don't know how to cut my own hair and every place is closed.
@@StayMadNobodycares :
I can cut my own hair but the back is hard to do. Have your brother do the back.
My solution was quite elegant. I got a whole bag of the smallest connectors I could find. Now I don't care if I lose one or ten of them, and they are in pretty much every bag I carry electronics around in. The upside is that I can still use the devices in the older ports any time I need to by simply removing the dongle.