USB-C PD: New Technology Done Right

There is a tendency as we get older, to retreat into an instinctive suspicion of anything new or associated with young people. All of us will know older people who have fallen down this rabbit hole, and certainly anything to do with technological advancement is often high on their list of ills which beset society. There’s a Douglas Adams passage which sums it up nicely:

“I’ve come up with a set of rules that describe our reactions to technologies:
1. Anything that is in the world when you’re born is normal and ordinary and is just a natural part of the way the world works.
2. Anything that’s invented between when you’re fifteen and thirty-five is new and exciting and revolutionary and you can probably get a career in it.
3. Anything invented after you’re thirty-five is against the natural order of things.”

Here at Hackaday we’re just like anybody else, in that we all get older. Our lives are devoted to an insatiable appetite for new technology, but are we susceptible to the same trap, and could we see something as against the antural order of things simply because we don’t like it? It’s something that has been on my mind in some way since I wrote a piece back in 2020 railing at the ridiculous overuse of new technologies to limit the lifespan and repairability of new cars and then a manifesto for how the industry might fix it, am I railing against it simply because I can’t fix it with a screwdriver in the way I could my 1960 Triumph Herald? I don’t think so, and to demonstrate why I’d like to talk about another piece of complex new technology that has got everything right.

In 2017 I lamented the lack of a universal low voltage DC power socket that was useful, but reading the piece here in 2024 it’s very obvious that in the years since my quest has been solved. USB Power Delivery was a standard back then, but hadn’t made the jump to the ubiquity the USB-C-based power plug and socket enjoys today. Most laptops still had proprietary barrel jack connectors, and there were still plenty of phones with micro-USB sockets. In the years since it’s become the go-to power standard, and there are a huge number of modules and devices to supply and receive it at pretty high power.

At first sight though, it might seem as though USB-PD is simply putting a piece of unnecessary technology in the way of what should be a simple DC connector. Each and every USB-PD connection requires some kind of chip to manage it, to negotiate the connection, and to transform voltage. Isn’t that the same as the cars, using extra technology merely for the sake of complexity? On the face of it you might think so, but the beauty lies in it being a universally accepted standard. If car manufacturers needed the same functionalty you’d have modules doing similar things in a Toyota, a Ford, or a Renault, but they would all be proprietary and they’d be eye-wateringly expensive to replace. Meanwhile USB-PD modules have to work with each other, so they have become a universal component available for not a huge cost. I have several bags of assorted modules in a box of parts here, and no doubt you do too. The significant complexity of the USB-PD endpoint doesn’t matter any more, because should it break then replacing it is an easy and cheap process.

This is not to say that USB-PD is without its problems though, the plethora of different cable standards is its Achilies’ heel. But if you’re every accused of a knee-jerk reaction to a bad piece of new technology simply because it’s new, point them to it as perhaps the perfect example of the responsible use of new technology.

A Few Reasonable Rules For The Responsible Use Of New Technology

If there’s one thing which probably unites all of Hackaday’s community, it’s a love of technology. We live to hear about the very latest developments before anyone else, and the chances are for a lot of them we’ll all have a pretty good idea how they work. But if there’s something which probably annoys a lot of us the most, it’s when we see a piece of new technology misused. A lot of us are open-source enthusiasts not because we’re averse to commercial profit, but because we’ve seen the effects of monopolistic practices distorting the market with their new technologies and making matters worse, not better. After all, if a new technology isn’t capable of making the world a better place in some way, what use is it?

It’s depressing then to watch the same cycle repeat itself over and over, to see new technologies used in the service of restrictive practices for short-term gain rather than to make better products. We probably all have examples of new high-tech products that are simply bad, that are new technology simply for the sake of marketing, and which ultimately deliver something worse than what came before, but with more bling. Perhaps the worst part is the powerlessness,  watching gullible members of the public lapping up something shiny and new that you know to be flawed, and not being able to do anything about it.

Here at Hackaday though, perhaps there is something I can do about it. I don’t sit in any boardroom that matters but I do have here a soapbox on which to stand, and from it I can talk to you, people whose work takes you into many fascinating corners of the tech industry and elsewhere. If I think that new technologies are being used irresponsibly to create bad products, at least I can codify how that might be changed. So here are my four Rules For The Responsible Use Of New Technology, each with some examples. They should each be self-evident, and I hope you’ll agree with me. Continue reading “A Few Reasonable Rules For The Responsible Use Of New Technology”

Fixing The Future

[iFixit] (who we’ve posted about many times before) has launched a passionate manifesto promoting the skills and knowledge of repair as a solution to technological consumerism and waste. They use powerful footage of electronic waste dumps in Ghana to make the point that we must collectively change the way we use and relate to our high technology–take a look after the break.

The manifesto rallies against the practice of withholding repair knowledge such as manuals, error codes and schematics–putting responsibility in the hands of manufacturers–but also makes it clear that it is up to every one of us to inform ourselves and to value functionality over novelty.

Considering the many-faceted resource crisis that we are headed towards, any efforts to push our behavior towards a sustainable and considerate way of life should be considered. As hackers we repair, reuse and rethink technology as part of our craft–but we are also privileged by our enthusiasm for technical challenges. The real battle is to disseminate the kind of knowledge and skills we possess into the general population. This is where the heart of [ifixit]’s message comes into play: the creation of an open, editable online repair manual for every electronic device. If you have something to teach, why not pop over and help expand their database?

Continue reading “Fixing The Future”