Pre-production preview chips from TI have just arrived. #electronics #usb
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Board almost finished after yet another month of procrastination and doing nothing. #electronics #usb Hmmmm. So I need 20 millimeters of creepage distance for 1000 volts per IEC60950. That's kind of... Creepy. #electronics So this is what I need to do for the required creepage distance. I think the whole board is just gonna crack into two pieces. #electronics Anyways, I'm now pretty sure that those cheap $20 USB isolation dongles are definitely not designed for continuously working at 1000 V. It's just impossible when the required clearance and creepage are literally bigger than your entire dongle! Of course, unless it's only for functional isolation, for which there's no distance requirement at all. #electronics #usb On second thought, the isolated DCDC converter on my board only has functional isolation, and this already seriously limited the working voltage of the entire system. It's kind of pointless to design the rest of board for reinforced isolation per IEC 60950. I guess it's time to remove the slots. #electronics There are more gotchas. > Clearance: 8 mm Then the 8 mm clearance is immediately violated, officially, in the recommended footprint at the end of the datasheet. #electronics #usb Another pitfall is the IPC-2221 standard in most PCB calculators. Its clearance requirement can get ridiculous for some use cases because of the stepwise definition, yet insufficient for other uses cases (reinforced insulation). "Friendship ended with IPC-2221, now IEC 60950 is my best friend!" #electronics PCB ordered. Added common-mode chokes at both sides of the isolated converter hopefully to suppress some noise across the barrier. Also removed the slot - the SIP DCDC module only has functional isolation, so increasing the creepage distance further is pointless... #electronics Hopefully I won't accidentally kill myself later in the dielectric withstand voltage test by the 3000 volts HiPot tester. LIke many on the Fediverse, https://ihatebeinga.live is a thing, but a HiPot tester is just a terrible way to die. #electronics My USB 2.0 isolation board is working. The Texas Instruments chip ISOUSB211 works as advertised, it really is the first USB 2.0 high-speed (480 Mbps) galvanic isolation chip on the open market. I'll release all the design files tomorrow. #electronics #usb TI ISOUSB211 development board design is now public. This TI chip is the first ASIC capable of doing USB 2.0 High-Speed (480 Mbps, not 12 Mbps) galvanic isolation on the open market. As always, #Lain must be loved. https://notabug.org/niconiconi/isousb211 #electronics #usb |
1000 volts over USB.