So out of curiosity - I want to power a high voltage (200V maximum operating, supposedly 140V+, my target is 150-160V, I know that works), low amperage component (2.5-3mA, can safely operate up to 8mA but I've no intention of pushing it past 5; 2.5 is sufficient), this is mostly for fun, anyway - the whole point of my curiosity is if I can do it wirelessly - anyone can wire high voltage, but is it feasible to do with inductive coupling (or any other near-field energy transfer method) when it comes to something roughly covering the surface area of a chessboard square (5.7cm, I'll concede and go as high as 8cm)
Cursory math tells me yes, but I am notoriously good at not understanding realistic bounds.
For example: I have no idea what sort of resistance this circuit would have, I winged it and calculated 1kOhm to 500kOhm ranges (1kOhm, 40kOhm, 500kOhm) and got weird wattage results out.
at 1kOhm it'd be 40W which seems reasonable to me, we can charge phones and whatnot with inductive charging - surely it's possible, with 40kOhm I got 1W, this definitely sounds reasonable but again - the laws of reality don't usually match my math.
Or in other words: before I start wasting a bunch of money (and potentially doing something dangerous), is it feasible to supply 200V 5mA using inductive coupling or some other near-field wireless energy transfer method* (without exceeding the maximum surface area of 8 cm^2)?
Why? Why not?
*(such as Capacitive coupling or Magnetodynamic coupling but I only have a basic understanding of the former and I know nothing about the latter except name)
P.S, if anyone wants to know what the project is - it's just a little toy/puzzle thing involving some nixie tubes, have a couple (dozen, that is - more than I need, always buy more than I need just in case) IN-1's sitting about, as for where 200V 5mA came from - straight from the datasheet, I'm not exactly good at reading russian but I am good enough to extract basic information like that.
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