$ 13 5.0E-6 10.20027730826997 40 5.0 50
v 144 560 144 224 0 1 40.0 320.0 0.0 0.0 0.5
w 144 224 272 224 0
s 272 400 272 480 0 1 false
w 272 560 144 560 0
z 272 384 272 320 1 0.805904783 5.6
z 272 256 272 320 1 0.805904783 5.6
w 272 256 272 224 0
w 272 384 272 400 0
w 272 384 384 384 0
w 272 256 384 256 0
d 384 256 336 320 1 0.805904783
d 384 384 336 320 1 0.805904783
d 432 320 384 384 1 0.805904783
d 432 320 384 256 1 0.805904783
w 336 320 336 240 0
r 544 240 544 320 0 400.0
r 272 560 272 480 0 460.0
w 272 480 384 480 0
w 496 320 544 320 0
w 496 240 544 240 0
c 480 240 480 320 0 9.999999999999999E-5 4.71506258879711
w 496 240 480 240 0
w 480 240 336 240 0
w 432 320 480 320 0
w 480 320 496 320 0
x 587 286 771 292 0 24 powered circuit
x 432 441 640 447 0 24 leakage capacitor
x 326 529 561 535 0 24 controlled light bulb
x 111 77 842 83 0 24 This circuit allows to parasiticaly power low power electronics
x 112 111 847 117 0 24 (like arduino) inside light switch box (where is no neutral line)
x 113 143 849 149 0 24 by leaking little bit of current through bulb when switched off.
x 125 620 895 626 0 24 "switch" can be controlled by "powered circuit" (TRIAC, SSR, ...).
x 179 450 255 456 0 24 switch
x 126 651 778 657 0 24 "leakage capacitor", capacitor across "powered circuit"
x 126 684 900 690 0 24 and "transil" should be chosen to match the load (and light bulb).
x 115 174 863 180 0 24 Please note that "powered circuit" is directly coupled to mains!
x 177 326 250 332 0 24 transil
c 384 480 384 384 0 3.0000000000000004E-7 243.21853818596372
o 15 64 0 291 9.353610478917778 0.023384026197294447 0 -1
o 16 64 0 35 160.0 0.4 1 -1
o 5 64 0 35 10.0 0.1 2 -1
o 37 64 1 35 40.0 9.765625E-5 3 -1
o 0 64 0 35 320.0 0.4 4 -1