I wanted to share this opinion on Hackaday about a topic that is the usefulness of a something that has become ubiquitous relatively fast.
This techonolgyy has a lot of potential, what do you think?
I wanted to share this opinion on Hackaday about a topic that is the usefulness of a something that has become ubiquitous relatively fast.
This techonolgyy has a lot of potential, what do you think?
I thought solar panels used Anderson connectors pretty standardly. I wouldn’t call it low power but in electronics I wouldn’t call 100W low power either. We basically need 5v 15w for phones, 12v for bigger stuff (laptops) up to say 150W. After that, AC might be better since you can use transformers. I guess we need super high power DC for charging cars. Tesla seems to be the de facto standard. There is no reason to use that connector in a phone.
Solar panels use MC4 connectors. They are weatherproof, they lock together and they fit the thick, weatherproof cables used for solar power. They can handle fairly high voltage, but they can not be connected or disconnected under load though.
The Anderson Powerpole connectors are a good choice for DC power. I use Anderson PP30 connectors for most of my 13.8V stuff. They are robust and fairly small.
Most electronic devices will just rectify AC into DC before stepping it down with a switch mode power supply since that’s smaller, lighter, and cheaper than using a mains frequency transformer. It’s pretty rare to find a mains frequency transformer in consumer electronic equipment today.
Yeah probably true about 60 hz transformers, even for higher powered devices like desktop PC’s. They still have pretty big internal inductors though. Maybe we need to bring more 208V 3 phase into homes and offices.
For permanent installations like most solar setups, I don’t think uniformity of connectors is that important, as long as it’s non-proprietary and you can order it from a catalog.
For phones and laptops, wireless charging is probably the way forward. More than additional standardized chargers, I want standardized and swappable batteries, for phones, laptops, power tools, etc. The chargers will follow.
Wireless charging is super lossy though and generally far slower than charging over USB. I’m sure some of that can be overcome with more research but I have a hard time believing wireless anything will ever be as efficient as wired
Phones or laptops should probably accomodate wired charging (though count on Apple to eliminate it anyway), but most of the time, wireless could be the norm. Convenient, avoids wear on connectors, etc. I think there are some Samsung phones with two-way wireless charging, so you can stack one phone on top of the other and transfer charge. That seemed crazy to me given the non-removable batteries but whatever.
That reminds me of another USB PD idiocy that I forgot to mention earlier. There are many devices like power banks and even some phones, that can both send and receive charging current. E.g. you’d charge your power bank from a wall cube, and later use the power bank to charge your phone. In the pre-USB-C era, power banks had separate connectors for input and output. Now the two functions share a single connector and the cable is the same at both ends.
So if you plug one power bank into another, how does the setup know which one is to be the “charger” and which the “chargee”? The spec says they are suppsed to choose at random! I guess you are supposed to look at the activity lights and if the current is going the wrong way, unplug and replug the devices until it goes the way you want. This can lead to a situation where you plug your phone into a power bank, but the phone ends up charging the power bank instead of the other way around.
I imagine that if you are attentive enough, you can prevent this somehow, or at least intervene and reverse it when it happens. But it still seems like crackhead engineering to me.