I know he jokes that running a marathon is theoretically possible with running shoes, it really isn't too hard though with programs like Couch to 5km https://c25k.com/. Multiple members of family have run marathons from as little as 6 months from nothing.
I keep subconsciously dismissing TinyTapeout because the time horizon is so long and I don't have a cool project idea that requires an ASIC, but it's probably a really good idea to do uncool things that don't require ASICs, to become familiar with the process and be able to do cool things later eventually. (Libre Hardware phone, anyone?)
This is very interesting, for someone not involved in doing chip design, it's very interesting to get an idea of the open source landscape. Very exiting. I like the idea of consolidating some power electronics and logic into a single chip at some point, for example a BLDC driver with embedded MOSFETs, gate drivers and MCU. But this is a pipe dream for now. But I know it's possible.
I already see single-chip battery chargers (admittedly a lot simpler) that do both the charging logic (constant current until setpoint, then constant voltage until current drops below configured threshold).
A lot of stuff could be consolidated into single chips, making PCBs smaller and simplyfing designs.
The issue with consolidating a BLDC driver is thermals more than anything else, right? Much easier to keep the MOSFETs cool if they aren't packed in on chip. Plus you can customize their size to the load.
Yeah, for most applications it's preferred that way. It's only for the ultra-compact, ultra high volume production, ultra high energy densities that packing it all into a single, unobody die and package could make sense. It would offer minor benefits anyway. Only when every gram, watt and mm3 counts would it be worth even thinking about. Maybe for very large vehicles (trucks, boats) or extremely small applications it would make more sense?
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