******************************************************************************** ** ** E 6 _ C o m b i n a t i o n s _ 3 _ A . t x t ** ******************************************************************************** ** ** FUNCTIONAL DESCRIPTION ** ** This text file contains a concise table of feasible combinations of the ** form X = x1 + x2 + x3, where x1, x2, and x3 are three values taken from ** the E6 series of preferred values and X is the resulting value of this ** combination. The different E series of preferred values are specified in ** IEC Standard 60063. ** ** The E6 series consists of the following six base values: ** ** 100 150 220 330 470 680 ** ** The above type of combinations applies to series connections of three ** resistors, series connections of three inductors, or parallel connections ** of three capacitors, respectively. Combinations of two values and single ** values are seamlessly included, in which case one or two of the x values ** are zero. ** ** In order to limit the potentially infinite number of possible combinations ** to a reasonable amount, combinations where the ratio between the largest ** finite value and the smallest non-zero value would exceed an upper limit ** of 100 are excluded. Such an upper limit corresponds to nominal component ** tolerances in the order of 1% for the dominant values of a combination, ** which should be sufficient for most cases of interest. Also, equivalent ** permutations are eliminated by ensuring that x1 >= x2 >= x3. ** ** The table of feasible combinations below is sorted in ascending order of ** resulting values X, and these values are normalised such that they gener- ** ally fall into the base decade from 100 to 1000, thus 100 <= X < 1000. Of ** course, all table entries can be arbitrarily scaled up or down by factors ** of 10, 100, 1000, and so forth. ** ** This is best illustrated with resistors: ** ** ____ r1 ____ r2 ____ r3 ** o-----|____|----|____|----|____|-----o ** ** r1..r3 = resistance values of the used resistors ** R = total resistance of the resistor combination ** M = maximum allowed ratio of resistance values ** ** M = 100 ** R = r1 + r2 + r3 ** 100 <= R < 1000 ** r1 >= r2 >= r3 ** r2, r3 may be zero (one/two resistors) ** 1 <= r1/r2 <= M ; if r2 > 0 and r3 = 0 ** 1 <= r1/r3 <= M ; if r2 > 0 and r3 > 0 ** ** All in all, the resulting table of feasible combinations contains a total ** of 630 entries. As some values can be realised in different ways, however, ** there are only 531 distinct values. The maximum relative difference be- ** tween adjacent values is 2.0455 percent. ** ** The normalised relative uncertainty (NRU) value, which is also given for ** each combination, is calculated via the common error propagation formula ** for independent variables and gives an estimate for the mean relative ** uncertainty of the resulting value X of this combination in relation to ** the mean relative uncertainties of its x values. This estimate is valid ** under the simplifying assumption that the x values are statistically inde- ** pendent and normally distributed about their nominal values and that they ** have identical relative uncertainties, in which case 0.577 <= NRU <= 1. ** ** This means that the relative dispersion of the resulting value X of a ** combination is somewhat reduced compared to the relative dispersions of ** its individual x values. The worst-case behaviour is not improved, though. ** Note, however, that the above independence assumption may already be vio- ** lated when a combination is made up of components from the same production ** batch, just to name one potential caveat. ** ** One last note on the file format: This is a Unix plain text file that uses ** single line-feed (LF) characters as line terminators and assumes a fixed ** tab spacing of eight characters. Thus, a monospaced font and proper tab ** settings are recommended for best readability; and on Windows, it may be ** necessary, too, to replace LF with CR LF. ** ******************************************************************************** ** ** VERSION HISTORY ** ** Author: Gert Willmann, Stuttgart, Germany ** ** Version: 1.0, 30-Jul-2017 (23704 bytes) ** ** Copyright: (C) 2017 Gert Willmann ** ** This file is free software; it can be redistributed and/or modified under ** the terms of the GNU Lesser General Public License (LGPL) as published by ** the Free Software Foundation, either Version 3 of the License or (at your ** option) any later version. ** ** This file is distributed in the hope that it will be useful, but without ** any warranty; without even the implied warranty of merchantability or fit- ** ness for a particular purpose. See the GNU Lesser General Public License ** for more details. ** ** A copy of the GNU Lesser General Public License should have come along ** with this file. If not, see . ** ******************************************************************************** Table of Combinations: ====================== ---------------------------------------------------------------- Line X x1 x2 x3 NRU Series ---------------------------------------------------------------- 1 100 68 22 10 0.722 E6 2 100 100 - - 1 E3 3 100.8 47 47 6.8 0.663 E6 4 101 68 33 - 0.748 E6 5 101 100 1 - 0.99 E3 6 101.5 100 1.5 - 0.985 E6 7 101.68 68 33 0.68 0.743 E6 8 102 47 33 22 0.603 E6 9 102 68 33 1 0.741 E6 10 102 100 1 1 0.98 E3 11 102.2 100 2.2 - 0.979 E3 12 102.5 68 33 1.5 0.738 E6 13 102.5 100 1.5 1 0.976 E6 14 103 100 1.5 1.5 0.971 E6 15 103.2 68 33 2.2 0.733 E6 16 103.2 100 2.2 1 0.969 E3 17 103.3 100 3.3 - 0.969 E6 18 103.7 100 2.2 1.5 0.965 E6 19 104 47 47 10 0.646 E3 20 104.3 68 33 3.3 0.725 E6 21 104.3 100 3.3 1 0.959 E6 22 104.4 100 2.2 2.2 0.958 E3 23 104.7 100 4.7 - 0.956 E3 24 104.8 100 3.3 1.5 0.955 E6 25 105 68 22 15 0.695 E6 26 105.5 100 3.3 2.2 0.949 E6 27 105.7 68 33 4.7 0.716 E6 28 105.7 100 4.7 1 0.947 E3 29 106.2 100 4.7 1.5 0.943 E6 30 106.6 100 3.3 3.3 0.939 E6 31 106.8 100 6.8 - 0.938 E6 32 106.9 100 4.7 2.2 0.937 E3 33 107.8 68 33 6.8 0.704 E6 34 107.8 100 6.8 1 0.93 E6 35 108 100 4.7 3.3 0.927 E6 36 108.3 100 6.8 1.5 0.926 E6 37 109 47 47 15 0.625 E6 38 109 100 6.8 2.2 0.92 E6 39 109.4 100 4.7 4.7 0.916 E3 40 110 100 10 - 0.914 E3 41 110.1 100 6.8 3.3 0.911 E6 42 111 68 33 10 0.687 E6 43 111 100 10 1 0.905 E3 44 111.5 100 6.8 4.7 0.9 E6 45 111.5 100 10 1.5 0.901 E6 46 112 68 22 22 0.668 E6 47 112.2 100 10 2.2 0.896 E3 48 113 47 33 33 0.586 E6 49 113.3 100 10 3.3 0.887 E6 50 113.6 100 6.8 6.8 0.884 E6 51 114.7 100 10 4.7 0.877 E3 52 115 68 47 - 0.719 E6 53 115 100 15 - 0.879 E6 54 115.68 68 47 0.68 0.715 E6 55 116 47 47 22 0.604 E3 56 116 68 33 15 0.664 E6 57 116 68 47 1 0.713 E6 58 116 100 15 1 0.872 E6 59 116.5 68 47 1.5 0.71 E6 60 116.5 100 15 1.5 0.868 E6 61 116.8 100 10 6.8 0.862 E6 62 117.2 68 47 2.2 0.706 E6 63 117.2 100 15 2.2 0.863 E6 64 118.3 68 47 3.3 0.699 E6 65 118.3 100 15 3.3 0.855 E6 66 119.7 68 47 4.7 0.692 E6 67 119.7 100 15 4.7 0.846 E6 68 120 100 10 10 0.842 E3 69 121.8 68 47 6.8 0.681 E6 70 121.8 100 15 6.8 0.832 E6 71 122 100 22 - 0.839 E3 72 123 68 33 22 0.64 E6 73 123 100 22 1 0.832 E3 74 123.5 100 22 1.5 0.829 E6 75 124.2 100 22 2.2 0.825 E3 76 125 68 47 10 0.666 E6 77 125 100 15 10 0.813 E6 78 125.3 100 22 3.3 0.818 E6 79 126.7 100 22 4.7 0.809 E3 80 127 47 47 33 0.584 E6 81 128.8 100 22 6.8 0.797 E6 82 130 68 47 15 0.646 E6 83 130 100 15 15 0.786 E6 84 132 100 22 10 0.779 E3 85 133 100 33 - 0.792 E6 86 134 68 33 33 0.615 E6 87 134 100 33 1 0.786 E6 88 134.5 100 33 1.5 0.783 E6 89 135.2 100 33 2.2 0.779 E6 90 136 68 68 - 0.707 E6 91 136.3 100 33 3.3 0.773 E6 92 136.68 68 68 0.68 0.704 E6 93 137 68 47 22 0.624 E6 94 137 68 68 1 0.702 E6 95 137 100 22 15 0.755 E6 96 137.5 68 68 1.5 0.699 E6 97 137.7 100 33 4.7 0.765 E6 98 138.2 68 68 2.2 0.696 E6 99 139.3 68 68 3.3 0.691 E6 100 139.8 100 33 6.8 0.755 E6 101 140.7 68 68 4.7 0.684 E6 102 141 47 47 47 0.577 E3 103 142.8 68 68 6.8 0.675 E6 104 143 100 33 10 0.74 E6 105 144 100 22 22 0.727 E3 106 146 68 68 10 0.662 E6 107 147 100 47 - 0.752 E3 108 148 68 47 33 0.601 E6 109 148 100 33 15 0.719 E6 110 148 100 47 1 0.747 E3 111 148.5 100 47 1.5 0.744 E6 112 149.2 100 47 2.2 0.741 E3 113 150 150 - - 1 E6 114 150.3 100 47 3.3 0.735 E6 115 151 68 68 15 0.645 E6 116 151.5 150 1.5 - 0.99 E6 117 151.7 100 47 4.7 0.729 E3 118 152.2 150 2.2 - 0.986 E6 119 153 150 1.5 1.5 0.98 E6 120 153.3 150 3.3 - 0.979 E6 121 153.7 150 2.2 1.5 0.976 E6 122 153.8 100 47 6.8 0.72 E6 123 154.4 150 2.2 2.2 0.972 E6 124 154.7 150 4.7 - 0.97 E6 125 154.8 150 3.3 1.5 0.969 E6 126 155 100 33 22 0.694 E6 127 155.5 150 3.3 2.2 0.965 E6 128 156.2 150 4.7 1.5 0.961 E6 129 156.6 150 3.3 3.3 0.958 E6 130 156.8 150 6.8 - 0.958 E6 131 156.9 150 4.7 2.2 0.957 E6 132 157 100 47 10 0.707 E3 133 158 68 68 22 0.624 E6 134 158 150 4.7 3.3 0.95 E6 135 158.3 150 6.8 1.5 0.949 E6 136 159 150 6.8 2.2 0.944 E6 137 159.4 150 4.7 4.7 0.942 E6 138 160 150 10 - 0.94 E6 139 160.1 150 6.8 3.3 0.938 E6 140 161.5 150 6.8 4.7 0.93 E6 141 161.5 150 10 1.5 0.931 E6 142 162 68 47 47 0.587 E6 143 162 100 47 15 0.688 E6 144 162.2 150 10 2.2 0.927 E6 145 163.3 150 10 3.3 0.921 E6 146 163.6 150 6.8 6.8 0.919 E6 147 164.7 150 10 4.7 0.913 E6 148 165 150 15 - 0.914 E6 149 166 100 33 33 0.665 E6 150 166.5 150 15 1.5 0.905 E6 151 166.8 150 10 6.8 0.902 E6 152 167.2 150 15 2.2 0.902 E6 153 168 100 68 - 0.72 E6 154 168.3 150 15 3.3 0.896 E6 155 169 68 68 33 0.602 E6 156 169 100 47 22 0.667 E3 157 169 100 68 1 0.716 E6 158 169.5 100 68 1.5 0.714 E6 159 169.7 150 15 4.7 0.889 E6 160 170 150 10 10 0.886 E6 161 170.2 100 68 2.2 0.711 E6 162 171.3 100 68 3.3 0.706 E6 163 171.8 150 15 6.8 0.878 E6 164 172 150 22 - 0.881 E6 165 172.7 100 68 4.7 0.701 E6 166 173.5 150 22 1.5 0.874 E6 167 174.2 150 22 2.2 0.87 E6 168 174.8 100 68 6.8 0.693 E6 169 175 150 15 10 0.863 E6 170 175.3 150 22 3.3 0.865 E6 171 176.7 150 22 4.7 0.858 E6 172 178 100 68 10 0.682 E6 173 178.8 150 22 6.8 0.849 E6 174 180 100 47 33 0.641 E6 175 180 150 15 15 0.842 E6 176 182 150 22 10 0.835 E6 177 183 68 68 47 0.585 E6 178 183 100 68 15 0.666 E6 179 183 150 33 - 0.839 E6 180 184.5 150 33 1.5 0.832 E6 181 185.2 150 33 2.2 0.829 E6 182 186.3 150 33 3.3 0.825 E6 183 187 150 22 15 0.815 E6 184 187.7 150 33 4.7 0.819 E6 185 189.8 150 33 6.8 0.81 E6 186 190 100 68 22 0.647 E6 187 193 150 33 10 0.797 E6 188 194 100 47 47 0.619 E3 189 194 150 22 22 0.79 E6 190 197 150 47 - 0.798 E6 191 198 150 33 15 0.779 E6 192 198.5 150 47 1.5 0.792 E6 193 199.2 150 47 2.2 0.789 E6 194 200 100 100 - 0.707 E3 195 200.3 150 47 3.3 0.785 E6 196 201 100 68 33 0.624 E6 197 201 100 100 1 0.704 E3 198 201.5 100 100 1.5 0.702 E6 199 201.7 150 47 4.7 0.78 E6 200 202.2 100 100 2.2 0.699 E3 201 203.3 100 100 3.3 0.696 E6 202 203.8 150 47 6.8 0.772 E6 203 204 68 68 68 0.577 E6 204 204.7 100 100 4.7 0.691 E3 205 205 150 33 22 0.757 E6 206 206.8 100 100 6.8 0.685 E6 207 207 150 47 10 0.761 E6 208 210 100 100 10 0.675 E3 209 212 150 47 15 0.745 E6 210 215 100 68 47 0.603 E6 211 215 100 100 15 0.661 E6 212 216 150 33 33 0.727 E6 213 218 150 68 - 0.755 E6 214 219 150 47 22 0.725 E6 215 219.5 150 68 1.5 0.75 E6 216 220 220 - - 1 E3 217 220.2 150 68 2.2 0.748 E6 218 221.3 150 68 3.3 0.744 E6 219 222 100 100 22 0.645 E3 220 222.2 220 2.2 - 0.99 E3 221 222.7 150 68 4.7 0.74 E6 222 223.3 220 3.3 - 0.985 E6 223 224.4 220 2.2 2.2 0.98 E3 224 224.7 220 4.7 - 0.979 E3 225 224.8 150 68 6.8 0.733 E6 226 225.5 220 3.3 2.2 0.976 E6 227 226.6 220 3.3 3.3 0.971 E6 228 226.8 220 6.8 - 0.97 E6 229 226.9 220 4.7 2.2 0.97 E3 230 228 150 68 10 0.724 E6 231 228 220 4.7 3.3 0.965 E6 232 229 220 6.8 2.2 0.961 E6 233 229.4 220 4.7 4.7 0.959 E3 234 230 150 47 33 0.698 E6 235 230 220 10 - 0.958 E3 236 230.1 220 6.8 3.3 0.957 E6 237 231.5 220 6.8 4.7 0.951 E6 238 232.2 220 10 2.2 0.948 E3 239 233 100 100 33 0.623 E6 240 233 150 68 15 0.71 E6 241 233.3 220 10 3.3 0.944 E6 242 233.6 220 6.8 6.8 0.943 E6 243 234.7 220 10 4.7 0.939 E3 244 235 220 15 - 0.938 E6 245 236 100 68 68 0.588 E6 246 236.8 220 10 6.8 0.93 E6 247 237.2 220 15 2.2 0.93 E6 248 238.3 220 15 3.3 0.925 E6 249 239.7 220 15 4.7 0.92 E6 250 240 150 68 22 0.692 E6 251 240 220 10 10 0.919 E3 252 241.8 220 15 6.8 0.912 E6 253 242 220 22 - 0.914 E3 254 244 150 47 47 0.672 E6 255 244.2 220 22 2.2 0.905 E3 256 245 220 15 10 0.901 E6 257 245.3 220 22 3.3 0.901 E6 258 246.7 220 22 4.7 0.896 E3 259 247 100 100 47 0.603 E3 260 248.8 220 22 6.8 0.889 E6 261 250 150 100 - 0.721 E6 262 250 220 15 15 0.884 E6 263 251 150 68 33 0.669 E6 264 251.5 150 100 1.5 0.717 E6 265 252 220 22 10 0.878 E3 266 252.2 150 100 2.2 0.715 E6 267 253 220 33 - 0.879 E6 268 253.3 150 100 3.3 0.712 E6 269 254.7 150 100 4.7 0.708 E6 270 255.2 220 33 2.2 0.872 E6 271 256.3 220 33 3.3 0.868 E6 272 256.8 150 100 6.8 0.703 E6 273 257 220 22 15 0.862 E6 274 257.7 220 33 4.7 0.863 E6 275 259.8 220 33 6.8 0.857 E6 276 260 150 100 10 0.694 E6 277 263 220 33 10 0.847 E6 278 264 220 22 22 0.842 E3 279 265 150 68 47 0.646 E6 280 265 150 100 15 0.683 E6 281 267 220 47 - 0.843 E3 282 268 100 100 68 0.586 E6 283 268 220 33 15 0.832 E6 284 269.2 220 47 2.2 0.836 E3 285 270.3 220 47 3.3 0.832 E6 286 271.7 220 47 4.7 0.828 E3 287 272 150 100 22 0.668 E6 288 273.8 220 47 6.8 0.822 E6 289 275 220 33 22 0.813 E6 290 277 220 47 10 0.813 E3 291 282 220 47 15 0.8 E6 292 283 150 100 33 0.648 E6 293 286 150 68 68 0.623 E6 294 286 220 33 33 0.786 E6 295 288 220 68 - 0.8 E6 296 289 220 47 22 0.782 E3 297 290.2 220 68 2.2 0.794 E6 298 291.3 220 68 3.3 0.791 E6 299 292.7 220 68 4.7 0.787 E6 300 294.8 220 68 6.8 0.781 E6 301 297 150 100 47 0.627 E6 302 298 220 68 10 0.773 E6 303 300 100 100 100 0.577 E3 304 300 150 150 - 0.707 E6 305 300 220 47 33 0.758 E6 306 301.5 150 150 1.5 0.704 E6 307 302.2 150 150 2.2 0.702 E6 308 303 220 68 15 0.762 E6 309 303.3 150 150 3.3 0.699 E6 310 304.7 150 150 4.7 0.696 E6 311 306.8 150 150 6.8 0.692 E6 312 310 150 150 10 0.685 E6 313 310 220 68 22 0.746 E6 314 314 220 47 47 0.732 E3 315 315 150 150 15 0.675 E6 316 318 150 100 68 0.606 E6 317 320 220 100 - 0.755 E3 318 321 220 68 33 0.725 E6 319 322 150 150 22 0.662 E6 320 322.2 220 100 2.2 0.75 E3 321 323.3 220 100 3.3 0.748 E6 322 324.7 220 100 4.7 0.744 E3 323 326.8 220 100 6.8 0.74 E6 324 330 220 100 10 0.733 E3 325 330 330 - - 1 E6 326 333 150 150 33 0.645 E6 327 333.3 330 3.3 - 0.99 E6 328 334.7 330 4.7 - 0.986 E6 329 335 220 68 47 0.702 E6 330 335 220 100 15 0.723 E6 331 336.6 330 3.3 3.3 0.98 E6 332 336.8 330 6.8 - 0.98 E6 333 338 330 4.7 3.3 0.976 E6 334 339.4 330 4.7 4.7 0.973 E6 335 340 330 10 - 0.971 E6 336 340.1 330 6.8 3.3 0.971 E6 337 341.5 330 6.8 4.7 0.967 E6 338 342 220 100 22 0.71 E3 339 343.3 330 10 3.3 0.962 E6 340 343.6 330 6.8 6.8 0.961 E6 341 344.7 330 10 4.7 0.958 E6 342 345 330 15 - 0.958 E6 343 346.8 330 10 6.8 0.952 E6 344 347 150 150 47 0.626 E6 345 348.3 330 15 3.3 0.948 E6 346 349.7 330 15 4.7 0.945 E6 347 350 150 100 100 0.589 E6 348 350 330 10 10 0.944 E6 349 351.8 330 15 6.8 0.939 E6 350 352 330 22 - 0.94 E6 351 353 220 100 33 0.691 E6 352 355 330 15 10 0.931 E6 353 355.3 330 22 3.3 0.931 E6 354 356 220 68 68 0.674 E6 355 356.7 330 22 4.7 0.927 E6 356 358.8 330 22 6.8 0.922 E6 357 360 330 15 15 0.919 E6 358 362 330 22 10 0.914 E6 359 363 330 33 - 0.914 E6 360 366.3 330 33 3.3 0.905 E6 361 367 220 100 47 0.671 E3 362 367 330 22 15 0.902 E6 363 367.7 330 33 4.7 0.902 E6 364 368 150 150 68 0.605 E6 365 369.8 330 33 6.8 0.897 E6 366 370 220 150 - 0.72 E6 367 372.2 220 150 2.2 0.715 E6 368 373 330 33 10 0.89 E6 369 373.3 220 150 3.3 0.713 E6 370 374 330 22 22 0.886 E6 371 374.7 220 150 4.7 0.711 E6 372 376.8 220 150 6.8 0.707 E6 373 377 330 47 - 0.884 E6 374 378 330 33 15 0.878 E6 375 380 220 150 10 0.701 E6 376 380.3 330 47 3.3 0.877 E6 377 381.7 330 47 4.7 0.873 E6 378 383.8 330 47 6.8 0.869 E6 379 385 220 150 15 0.693 E6 380 385 330 33 22 0.863 E6 381 387 330 47 10 0.862 E6 382 388 220 100 68 0.647 E6 383 392 220 150 22 0.682 E6 384 392 330 47 15 0.851 E6 385 396 330 33 33 0.842 E6 386 398 330 68 - 0.847 E6 387 399 330 47 22 0.837 E6 388 400 150 150 100 0.586 E6 389 401.3 330 68 3.3 0.84 E6 390 402.7 330 68 4.7 0.837 E6 391 403 220 150 33 0.666 E6 392 404.8 330 68 6.8 0.833 E6 393 408 330 68 10 0.826 E6 394 410 330 47 33 0.817 E6 395 413 330 68 15 0.817 E6 396 417 220 150 47 0.648 E6 397 420 220 100 100 0.623 E3 398 420 330 68 22 0.804 E6 399 424 330 47 47 0.794 E6 400 430 330 100 - 0.802 E6 401 431 330 68 33 0.785 E6 402 433.3 330 100 3.3 0.796 E6 403 434.7 330 100 4.7 0.793 E6 404 436.8 330 100 6.8 0.79 E6 405 438 220 150 68 0.627 E6 406 440 220 220 - 0.707 E3 407 440 330 100 10 0.784 E6 408 442.2 220 220 2.2 0.704 E3 409 443.3 220 220 3.3 0.702 E6 410 444.7 220 220 4.7 0.7 E3 411 445 330 68 47 0.764 E6 412 445 330 100 15 0.776 E6 413 446.8 220 220 6.8 0.697 E6 414 450 150 150 150 0.577 E6 415 450 220 220 10 0.692 E3 416 452 330 100 22 0.764 E6 417 455 220 220 15 0.685 E6 418 462 220 220 22 0.675 E3 419 463 330 100 33 0.748 E6 420 466 330 68 68 0.738 E6 421 470 220 150 100 0.605 E6 422 470 470 - - 1 E3 423 473 220 220 33 0.661 E6 424 474.7 470 4.7 - 0.99 E3 425 476.8 470 6.8 - 0.986 E6 426 477 330 100 47 0.73 E6 427 479.4 470 4.7 4.7 0.98 E3 428 480 330 150 - 0.755 E6 429 480 470 10 - 0.979 E3 430 481.5 470 6.8 4.7 0.976 E6 431 483.3 330 150 3.3 0.75 E6 432 483.6 470 6.8 6.8 0.972 E6 433 484.7 330 150 4.7 0.748 E6 434 484.7 470 10 4.7 0.97 E3 435 485 470 15 - 0.97 E6 436 486.8 330 150 6.8 0.745 E6 437 486.8 470 10 6.8 0.966 E6 438 487 220 220 47 0.646 E3 439 489.7 470 15 4.7 0.96 E6 440 490 330 150 10 0.74 E6 441 490 470 10 10 0.96 E3 442 491.8 470 15 6.8 0.956 E6 443 492 470 22 - 0.956 E3 444 495 330 150 15 0.733 E6 445 495 470 15 10 0.95 E6 446 496.7 470 22 4.7 0.947 E3 447 498 330 100 68 0.706 E6 448 498.8 470 22 6.8 0.943 E6 449 500 470 15 15 0.941 E6 450 502 330 150 22 0.723 E6 451 502 470 22 10 0.937 E3 452 503 470 33 - 0.937 E6 453 507 470 22 15 0.929 E6 454 507.7 470 33 4.7 0.928 E6 455 508 220 220 68 0.627 E6 456 509.8 470 33 6.8 0.924 E6 457 513 330 150 33 0.71 E6 458 513 470 33 10 0.919 E6 459 514 470 22 22 0.916 E3 460 517 470 47 - 0.914 E3 461 518 470 33 15 0.91 E6 462 520 220 150 150 0.588 E6 463 521.7 470 47 4.7 0.905 E3 464 523.8 470 47 6.8 0.902 E6 465 525 470 33 22 0.898 E6 466 527 330 150 47 0.694 E6 467 527 470 47 10 0.896 E3 468 530 330 100 100 0.677 E6 469 532 470 47 15 0.888 E6 470 536 470 33 33 0.881 E6 471 538 470 68 - 0.883 E6 472 539 470 47 22 0.877 E3 473 540 220 220 100 0.605 E3 474 542.7 470 68 4.7 0.875 E6 475 544.8 470 68 6.8 0.872 E6 476 548 330 150 68 0.673 E6 477 548 470 68 10 0.867 E6 478 550 330 220 - 0.721 E6 479 550 470 47 33 0.861 E6 480 553 470 68 15 0.859 E6 481 553.3 330 220 3.3 0.717 E6 482 554.7 330 220 4.7 0.715 E6 483 556.8 330 220 6.8 0.712 E6 484 560 330 220 10 0.708 E6 485 560 470 68 22 0.849 E6 486 564 470 47 47 0.842 E3 487 565 330 220 15 0.702 E6 488 570 470 100 - 0.843 E3 489 571 470 68 33 0.834 E6 490 572 330 220 22 0.694 E6 491 574.7 470 100 4.7 0.836 E3 492 576.8 470 100 6.8 0.833 E6 493 580 330 150 100 0.648 E6 494 580 470 100 10 0.829 E3 495 583 330 220 33 0.683 E6 496 585 470 68 47 0.816 E6 497 585 470 100 15 0.822 E6 498 590 220 220 150 0.585 E6 499 592 470 100 22 0.813 E3 500 597 330 220 47 0.669 E6 501 603 470 100 33 0.799 E6 502 606 470 68 68 0.792 E6 503 617 470 100 47 0.783 E3 504 618 330 220 68 0.651 E6 505 620 470 150 - 0.796 E6 506 624.7 470 150 4.7 0.79 E6 507 626.8 470 150 6.8 0.787 E6 508 630 330 150 150 0.623 E6 509 630 470 150 10 0.783 E6 510 635 470 150 15 0.777 E6 511 638 470 100 68 0.761 E6 512 642 470 150 22 0.769 E6 513 650 330 220 100 0.629 E6 514 653 470 150 33 0.757 E6 515 660 220 220 220 0.577 E3 516 660 330 330 - 0.707 E6 517 663.3 330 330 3.3 0.704 E6 518 664.7 330 330 4.7 0.702 E6 519 666.8 330 330 6.8 0.7 E6 520 667 470 150 47 0.743 E6 521 670 330 330 10 0.697 E6 522 670 470 100 100 0.733 E3 523 675 330 330 15 0.692 E6 524 680 680 - - 1 E6 525 682 330 330 22 0.685 E6 526 686.8 680 6.8 - 0.99 E6 527 688 470 150 68 0.724 E6 528 690 470 220 - 0.752 E3 529 690 680 10 - 0.986 E6 530 693 330 330 33 0.675 E6 531 693.6 680 6.8 6.8 0.98 E6 532 694.7 470 220 4.7 0.747 E3 533 695 680 15 - 0.979 E6 534 696.8 470 220 6.8 0.745 E6 535 696.8 680 10 6.8 0.976 E6 536 700 330 220 150 0.606 E6 537 700 470 220 10 0.741 E3 538 700 680 10 10 0.972 E6 539 701.8 680 15 6.8 0.969 E6 540 702 680 22 - 0.969 E6 541 705 470 220 15 0.736 E6 542 705 680 15 10 0.965 E6 543 707 330 330 47 0.663 E6 544 708.8 680 22 6.8 0.96 E6 545 710 680 15 15 0.958 E6 546 712 470 220 22 0.73 E3 547 712 680 22 10 0.956 E6 548 713 680 33 - 0.955 E6 549 717 680 22 15 0.949 E6 550 719.8 680 33 6.8 0.946 E6 551 720 470 150 100 0.699 E6 552 723 470 220 33 0.719 E6 553 723 680 33 10 0.942 E6 554 724 680 22 22 0.94 E6 555 727 680 47 - 0.938 E6 556 728 330 330 68 0.648 E6 557 728 680 33 15 0.935 E6 558 733.8 680 47 6.8 0.929 E6 559 735 680 33 22 0.927 E6 560 737 470 220 47 0.707 E3 561 737 680 47 10 0.925 E6 562 742 680 47 15 0.919 E6 563 746 680 33 33 0.914 E6 564 748 680 68 - 0.914 E6 565 749 680 47 22 0.911 E6 566 754.8 680 68 6.8 0.905 E6 567 758 470 220 68 0.69 E6 568 758 680 68 10 0.902 E6 569 760 330 330 100 0.628 E6 570 760 680 47 33 0.898 E6 571 763 680 68 15 0.896 E6 572 770 330 220 220 0.589 E6 573 770 470 150 150 0.67 E6 574 770 680 68 22 0.888 E6 575 774 680 47 47 0.883 E6 576 780 680 100 - 0.881 E6 577 781 680 68 33 0.876 E6 578 786.8 680 100 6.8 0.874 E6 579 790 470 220 100 0.669 E3 580 790 680 100 10 0.87 E6 581 795 680 68 47 0.862 E6 582 795 680 100 15 0.865 E6 583 800 470 330 - 0.718 E6 584 802 680 100 22 0.857 E6 585 804.7 470 330 4.7 0.714 E6 586 806.8 470 330 6.8 0.712 E6 587 810 330 330 150 0.605 E6 588 810 470 330 10 0.709 E6 589 813 680 100 33 0.846 E6 590 815 470 330 15 0.705 E6 591 816 680 68 68 0.842 E6 592 822 470 330 22 0.699 E6 593 827 680 100 47 0.833 E6 594 830 680 150 - 0.839 E6 595 833 470 330 33 0.691 E6 596 836.8 680 150 6.8 0.832 E6 597 840 470 220 150 0.643 E6 598 840 680 150 10 0.829 E6 599 845 680 150 15 0.824 E6 600 847 470 330 47 0.68 E6 601 848 680 100 68 0.814 E6 602 852 680 150 22 0.818 E6 603 863 680 150 33 0.808 E6 604 868 470 330 68 0.666 E6 605 877 680 150 47 0.796 E6 606 880 330 330 220 0.586 E6 607 880 680 100 100 0.789 E6 608 898 680 150 68 0.779 E6 609 900 470 330 100 0.648 E6 610 900 680 220 - 0.794 E6 611 906.8 680 220 6.8 0.788 E6 612 910 470 220 220 0.619 E3 613 910 680 220 10 0.785 E6 614 915 680 220 15 0.781 E6 615 922 680 220 22 0.776 E6 616 930 680 150 100 0.756 E6 617 933 680 220 33 0.767 E6 618 940 470 470 - 0.707 E3 619 944.7 470 470 4.7 0.704 E3 620 946.8 470 470 6.8 0.702 E6 621 947 680 220 47 0.756 E6 622 950 470 330 150 0.625 E6 623 950 470 470 10 0.7 E3 624 955 470 470 15 0.696 E6 625 962 470 470 22 0.691 E3 626 968 680 220 68 0.742 E6 627 973 470 470 33 0.684 E6 628 980 680 150 150 0.727 E6 629 987 470 470 47 0.675 E3 630 990 330 330 330 0.577 E6 ----------------------------------------------------------------