Famed hardware hacker Bunnie Huang has posted an overview of his notes on designing an open source entropy generator. His summary links to the full notes which include schematics, measurement results, as well as other key details.
The final optimized design takes <1cm2 area and draws 520uA at 3.3V when active and 12uA in standby (mostly 1.8V LDO leakage for the output stage, included in the measurement but normally provided by the system), and it passes preliminary functional tests from 2.8-4.4V and 0-80C. The output levels target a 0-1V swing, meant to be sampled using an on-chip ADC from a companion MCU, but one could add a comparator and turn it into a digital-compatible bitstream I suppose. I opted to use an actual diode instead of a NPN B-E junction, because the noise quality is empirically better and anecdotes on the Internet claim the NPN B-E junctions fail over time when operated as noise sources. I'll probably go through another iteration of tweaking before final integration, but afaik this is the smallest, lowest power open-source avalanche noise generator to date (slightly smaller than this one [PDF]).
(Score: 2) by RS3 on Saturday April 20 2019, @04:07PM
AC's idea would still work with a high enough voltage ( > Vbce0 ). :-}
I'm not sure why he's suggesting an SCR, but if the BE junctions are failing, and it's due to the cyclic charge / avalanche discharge of the stored charge (which makes sense- microscopic sparks) maybe using a power transistor would solve the problem, or at least buy more time. I would stick with zeners.