$ 1 0.000039999999999999996 10.200277308269968 50 5 42 T 160 192 240 208 2 100 1 0 0 0.999 c 368 176 400 176 2 1e-11 0 c 352 272 384 272 2 1e-11 0 l 496 336 384 336 2 10000 0 l 240 112 352 112 2 10000 0 w 464 192 432 192 0 w 432 160 496 160 0 w 288 336 288 256 0 w 288 256 320 256 0 w 464 192 464 112 0 w 240 160 240 112 0 w 240 288 320 288 0 w 496 336 496 288 0 r 352 112 464 112 0 819999.9999999999 160 272 176 240 176 0 4.500000000000001e-9 10000000 w 256 224 256 192 0 160 400 176 432 176 0 4.500000000000001e-9 10000000 160 352 272 320 272 0 4.500000000000001e-9 10000000 160 464 272 496 272 0 4.500000000000001e-9 10000000 w 256 224 272 224 0 w 272 224 480 224 0 w 480 224 480 256 0 w 272 224 272 304 0 w 272 304 336 304 0 w 336 304 336 288 0 w 480 224 480 144 0 w 480 144 416 144 0 w 416 144 416 160 0 x 243 85 416 88 4 17 http://is.gd/4kiloampEV x 270 213 465 216 4 13 circuit-20170814-1535.circuitjs.txt x 194 330 252 333 4 18 Vinyasi x 344 310 441 313 4 13 AIR-CORE\sCOIL w 496 256 528 256 0 w 528 256 528 368 0 w 528 368 160 368 0 w 160 368 160 224 0 w 496 160 496 64 0 w 496 64 128 64 0 x 299 136 412 139 4 15 AIR-CORE\sCOIL w 272 144 208 144 0 v 208 96 208 144 0 2 50 3 0 0 0.5 g 208 96 176 96 0 w 160 144 128 144 0 w 128 144 128 64 0 A 160 192 112 192 0 1 40 5 0 0 0.5 r 288 336 384 336 0 819999.9999999999 x 92 407 545 410 4 22 THIS\sIS\sA\sNON-TRAPEZOIDAL\sSIMULATION x 86 437 559 440 4 21 WITH\sSPIKES\sAVERAGING\s~4\sKILOAMPS\sEACH x 88 467 557 470 4 25 20\sMILLI\sSEC.S\sON\sA\s50%\sDUTY\sCYCLE r 160 144 160 192 0 22000 r 240 224 240 288 0 22000 x 169 241 227 244 4 11 100H\s@\s1:1 187 320 176 368 176 0 3000 1000000 65 0.003 187 384 272 416 272 0 3000 1000000 65 0.003 r 320 176 272 176 0 180 r 416 272 464 272 0 180 w 416 144 272 144 0 x 93 495 556 498 4 21 BEST\sUSED\sWITH\sA\sRECIPROCATING\sMOTOR o 4 64 0 4417 4.999999999999999e-16 1e-17 0 2 4 3 o 4 64 0 4353 5 0.1 1 2 4 3 o 3 64 0 4353 5 0.1 2 2 3 3 o 4 64 0 4354 5 0.1 3 2 4 3 o 3 64 0 4354 5 0.1 4 2 3 3