Re-enable Powdered Iron after many fixes.

Added colours, fixed numerical errors causing kinks in the chart when using low winding on a small core at low frequencies.
Improved L prediction using modified Al instead of Ae and le figures.
pull/2/head
miguel 2021-11-06 14:44:54 +11:00
rodzic cf154fc773
commit f403a66bc4
1 zmienionych plików z 220 dodań i 124 usunięć

Wyświetl plik

@ -47,15 +47,15 @@
</div>
<div class="sliders">
<label for="conductor_diameter_slider">AWG:</label>
<input type="range" id="conductor_diameter_slider" min="0" max="40" value="20" step="1">
<input type="range" id="conductor_diameter_slider" min="2" max="38" value="20" step="1">
</div>
<div class="sliders">
<label for="loop_turns_slider">N:</label>
<input type="range" id="loop_turns_slider" min="0.0" max="1.0" value="0.2" step="0.01">
<label for="loop_turns_slider">Nd:</label>
<input type="range" id="loop_turns_slider" min="0.0" max="1.0" value="0.15" step="0.005">
</div>
<div class="sliders">
<label for="voltage_slider">Vrms:</label>
<input type="range" id="voltage_slider" min="0.0" max="3.0" value="1.0" step="0.01">
<input type="range" id="voltage_slider" min="0.0" max="3.0" value="1.0" step="0.005">
</div>
<div class="sliders">
<label for="frequency_slider">f:</label>
@ -66,7 +66,8 @@
<br>
<b><u>Notes:</u></b><br>
RF Toroid Calculator was developed to help users predict the RF characteristics of a ferrite toroid wound as an inductor or suppressor.
It uses the manufacturer's (Fair-Rite) published data including the toroid's dimensions and complex permeability characteristics.<br>
It uses the manufacturer's (Fair-Rite & Micrometals) published data including the toroid's dimensions and complex permeability characteristics
to predict the component's characteristics.<br>
The calculator has 4 separate display areas. At the top is the chart display for showing frequency-dependent characteristics. Next is the
schematic display, where a scaled image of the toroid and windings is presented to help with intuitive design. Next is the control panel
section, where the user can select the application type, toroid material, toroid size, wire size, number of windings and excitation voltage.<br><br>
@ -80,7 +81,7 @@
<b><u>Inputs via the slider widgets:</u></b>
<ul>
<li>AWG : Select the wire gauge. Sliding L-R changes AWG from 40-0. (Defaults to 20 AWG)</li>
<li>N : Selects the number of turns based on the winding density. Maximum (100%, slider to hard-right) is reached when the turns are adjacent at the toroid's inner radius. (Defaults to 20%)</li>
<li>Nd : Winding density at the toroid inner-diameter. Controls how many single-layer turns can be achieved around the core. Maximum (100%, slider to hard-right) is reached when the turns are adjacent at the toroid's inner radius. (Defaults to 15%)</li>
<li>Vrms : The RMS voltage applied to the inductor (Volts). Determines the flux-density (B) and field-intensity (H) within the ferrite toroid. (Defaults to 10Vrms)</li>
<li>f : Shifts the frequency of interest of the chart display from left-to-right. Left towards kHz, right towards GHz. </li>
</ul>
@ -116,6 +117,14 @@
<li>Ceff : Experimental effective-capacitance calculation to determine SRF. (Under development so greyed-out. Based on David Knight's G3YNH work on the self-capacitance of toroidal inductors detailed <a href="https://www.g3ynh.info/zdocs/magnetics/appendix/Toroid_selfC.html">HERE</a>).</li>
<li>SRF : Experimental self-resonant frequency prediction in MHz. (Under development so greyed-out. From the same paper detailed above.)</li>
</ul>
In the middle of the display are the following:
<ul>
<li>nn AWG : The wire gauge selected, based on the American Wire Gauge Standard.</li>
<li>&#8960; : Conductor diameter in mm and (inches).</li>
<li>Nd : The selected winding density in percent.</li>
<li>N : The number of turns, based on the selected Nd.</li>
<li>wire : Wire conductor length in centimeters and (feet).</li>
</ul>
On the right are the manufacturers data for the selected material.
<ul>
<li>&#956;i : Initial permeability @ B < 10 gauss.</li>
@ -126,11 +135,19 @@
<li>Hc : Coercive force at 0 gauss.</li>
<li>Tc : Curie temperature in Celsius.</li>
<li>&#961; : Resistivity in &#937;-cm.</li>
<li>[NiZn] : Material composition. (NiZn, MnZn)</li>
<li>Type : Material composition. (NiZn, MnZn, Phenolic, Carbonyl)</li>
<li>[nnnn] : Manufacturer's part number.</li>
</ul>
<br>
<b><u>Observations:</u></b><br>
<b>Powdered Iron:</b><br>
Inductance and reactance values correspond well with those predicted by online calculators such as toroids.info.
However, predictions for Q have mixed results when compared to the Micrometals Q-Curve Catalog found <a href="https://s3.amazonaws.com/micrometals-production/filer_public/7e/d0/7ed096a0-fe6e-4df1-9da9-e129c1ee73d2/q_curve_catalog_issue_h.pdf">HERE</a>.
I suggest using their catalog for accurate Q prediction. It has been previously identified that Q values predicted using Micrometal's curve-fit equations do not reconcile with measured Q as discussed <a href="https://owenduffy.net/calc/toroid.htm">here</a>.
<br>
<b><u>Change history:</u></b><br>
<b>[6-Nov-21]</b> <br>
* Re-enabled PI support.<br>
<b>[3-Nov-21]</b> <br>
* Disabled PI support due to bugs that need to be fixed.<br>
<b>[2-Nov-21]</b> <br>
@ -153,48 +170,48 @@
function awgToMm(awg) {
// AWG to diameter in mm:
switch (awg) {
case 40: return 0.0787;
case 39: return 0.0889;
case 38: return 0.102;
case 37: return 0.114;
case 36: return 0.127;
case 35: return 0.142;
case 34: return 0.160;
case 33: return 0.180;
case 32: return 0.203;
case 31: return 0.226;
case 30: return 0.255;
case 29: return 0.287;
case 28: return 0.320;
case 27: return 0.361;
case 26: return 0.404;
case 25: return 0.455;
case 24: return 0.511;
case 23: return 0.574;
case 22: return 0.645;
case 21: return 0.724;
case 20: return 0.813;
case 19: return 0.912;
case 18: return 1.024;
case 17: return 1.150;
case 16: return 1.290;
case 15: return 1.450;
case 14: return 1.628;
case 13: return 1.829;
case 12: return 2.053;
case 11: return 2.304;
case 10: return 2.588;
case 9: return 2.906;
case 8: return 3.264;
case 7: return 3.665;
case 6: return 4.115;
case 5: return 4.621;
case 4: return 5.189;
case 3: return 5.827;
case 2: return 6.544;
case 1: return 7.348;
case 0: return 8.251;
default: return 0.0;
case 40: return [0.0787, 0.10414];
case 39: return [0.0889, 0.1143];
case 38: return [0.102, 0.12954];
case 37: return [0.114, 0.14478];
case 36: return [0.127, 0.16002];
case 35: return [0.142, 0.1778];
case 34: return [0.160, 0.19812];
case 33: return [0.180, 0.22098];
case 32: return [0.203, 0.24638];
case 31: return [0.226, 0.27432];
case 30: return [0.255, 0.30734];
case 29: return [0.287, 0.33782];
case 28: return [0.320, 0.37338];
case 27: return [0.361, 0.4191];
case 26: return [0.404, 0.46228];
case 25: return [0.455, 0.51562];
case 24: return [0.511, 0.57658];
case 23: return [0.574, 0.64262];
case 22: return [0.645, 0.71374];
case 21: return [0.724, 0.8001];
case 20: return [0.813, 0.89154];
case 19: return [0.912, 0.99314];
case 18: return [1.024, 1.10998];
case 17: return [1.150, 1.23952];
case 16: return [1.290, 1.3843];
case 15: return [1.450, 1.5494];
case 14: return [1.628, 1.73228];
case 13: return [1.829, 1.93548];
case 12: return [2.053, 2.16154];
case 11: return [2.304, 2.41808];
case 10: return [2.588, 2.70256];
case 9: return [2.906, 3.0226];
case 8: return [3.264, 3.38328];
case 7: return [3.665, 3.78968];
case 6: return [4.115, 4.24688];
case 5: return [4.621, 4.75742];
case 4: return [5.189, 5.32892];
case 3: return [5.827, 5.97154];
case 2: return [6.544, 6.69036];
case 1: return [7.348, 7.54888];
case 0: return [8.251, 8.45];
default: return [0.0, 0.0];
}
}
@ -249,7 +266,8 @@
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mu_2: [0.289303711, 0.385253824, 0.481491564, 0.867093317, 1.350762274, 1.739566353, 2.416427681, 7.721430072, 7.973516404, 8.211915795, 9.000578471, 9.525294184, 9.539358131, 9.985647983, 10.21317352, 10.9124654, 11.41459574, 11.92915091, 12.13222424, 12.97789753, 13.72904158, 14.26065941, 15.13724059, 16.09541422, 16.7102912, 17.71820085, 18.71122023, 19.49525004, 20.48658071, 21.74524484, 23.0640455, 24.7848944, 26.22850221, 27.97594052, 29.64695631, 31.90680981, 33.92890232, 36.59644102, 39.10737708, 41.86787182, 45.0658211, 48.77541547, 53.0750689, 57.45015629, 62.50272585, 68.15373893, 74.65275341, 81.90826162, 90.60225492, 100.8423824, 112.8009168, 126.9124574, 143.517934, 164.1092076, 189.6556519, 221.4211477, 261.2887724, 313.7025431, 382.2620274, 475.1209197, 602.2959658, 779.4137144, 1023.757354, 1345.612776, 1712.239766, 1995.009455, 2022.30722, 1783.651735, 1443.317974, 1137.490938, 907.7645787, 746.8613168, 638.0172567, 565.6402706, 517.8546566, 486.8367069, 466.763034, 453.2343538, 443.1904295, 434.2851329, 425.0558182, 415.0165515, 404.0869149, 392.4422242, 380.4012255, 368.3075283, 356.3459607, 344.4424301, 333.0438673, 321.8701137, 311.1108071, 300.7642878, 290.866019, 281.3240811, 272.2112127, 263.5413384, 255.1024179, 246.966844, 239.2042748, 231.7671826, 224.5464818, 217.5984796, 210.8794141, 204.3913395, 198.1026505, 192.1025947, 186.2302496, 180.6029462, 175.107119, 169.7837129, 164.6736254, 159.6346219, 154.7587518, 150.0331907, 145.4429647, 140.9625123, 136.6289636, 132.4415757, 128.3512765, 124.3878016, 120.5875242, 116.8721149, 113.293722, 109.7936776, 106.4169012, 103.148636, 99.97602469, 96.91757718, 93.92363002, 91.02253316, 88.21426803, 85.50721438, 82.86032447, 80.30070665, 77.83305378, 75.4422733, 73.13055534, 70.8844903, 68.72594029, 66.62088877, 64.58785225, 62.62626735, 60.70113617, 58.83188685, 57.02023332, 55.27327546, 53.58530131, 51.95356572, 50.36046931, 48.84091232, 47.33233133, 45.90476705, 44.49727149, 43.14865806, 41.8184313, 40.54886853, 39.31478716, 38.13533338, 36.97706789, 35.84327965, 34.75466551, 33.72000889, 32.69012875, 31.69350444, 30.75346018, 29.81618266, 28.92020338, 28.04094115, 27.21403855, 26.39507763, 25.60676388, 24.83984183, 24.1003866, 23.39371118, 22.69978386, 22.02932947, 21.37550228, 20.7479763] ,
}
},
color : 'grey',
},
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size : {
@ -270,7 +288,8 @@
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mu_1: [524.7, 514.9, 513.6, 512.8, 512.7, 512.9, 513.5, 515.7, 519.2, 525.4, 534.5, 546.5, 559.4, 567.2, 562.0, 541.2, 504.8, 458.0, 406.6, 357.3, 313.0, 274.5, 241.1, 212.3, 187.0, 165.1, 146.1, 129.4, 114.7, 101.4, 89.2, 78.2, 67.6, 57.9, 48.9, 40.7, 33.3, 26.5, 20.6, 15.6, 11.5, 8.3, 5.8, 3.8, 2.4, 1.2, 0.4, -0.3, -0.7, -1.0, -1.3, -1.5, -1.7, -1.9, -2.2, -2.4, -2.8, -3.5] ,
mu_2: [7.0, 7.1, 7.5, 8.0, 8.9, 9.9, 10.9, 13.2, 18.2, 21.9, 28.3, 39.8, 62.0, 96.6, 142.3, 189.5, 231.3, 260.9, 276.0, 278.3, 272.3, 261.1, 247.6, 232.7, 217.3, 202.2, 187.4, 173.5, 160.6, 148.8, 138.0, 127.9, 118.3, 109.1, 100.4, 91.9, 83.8, 75.9, 68.2, 60.7, 53.6, 47.1, 41.1, 35.7, 31.0, 26.8, 23.2, 20.0, 17.2, 14.9, 12.9, 11.3, 9.8, 8.7, 7.7, 6.9, 6.4, 6.1] ,
}
},
color : 'grey',
},
'43' : {
size : {
@ -463,7 +489,8 @@
freq: [10000.0, 100000.0, 300000.0, 500000.0, 700000.0, 900000.0, 1000000.0, 1040843.912, 1083356.049, 1127604.548, 1173660.329, 1221597.208, 1271492.016, 1323424.724, 1377478.567, 1433740.18, 1492299.738, 1553251.097, 1616691.948, 1682723.971, 1751453.001, 1822989.193, 1897447.203, 1974946.369, 2055610.905, 2139570.096, 2226958.508, 2317916.205, 2412588.97, 2511128.542, 2613692.855, 2720446.295, 2831559.964, 2947211.95, 3067587.615, 3192879.893, 3323289.598, 3459025.746, 3600305.888, 3747356.465, 3900413.162, 4059721.294, 4225536.192, 4398123.62, 4577760.194, 4764733.828, 4959344.196, 5161903.214, 5372735.534, 5592179.071, 5820585.54, 6058321.023, 6305766.553, 6563318.726, 6831390.338, 7110411.043, 7400828.045, 7703106.813, 8017731.829, 8345207.362, 8686058.276, 9040830.875, 9410093.774, 9794438.815, 10194482.01, 10610864.54, 11044253.75, 11495344.28, 11964859.11, 12453550.76, 12962202.49, 13491629.55, 14042680.47, 14616238.48, 15213222.83, 15834590.37, 16481336.98, 17154499.26, 17855156.11, 18584430.54, 19343491.38, 20133555.24, 20955888.39, 21811808.85, 22702688.45, 23629955.06, 24595094.86, 25599654.75, 26645244.79, 27733540.82, 28866287.12, 30045299.2, 31272466.76, 32549756.63, 33879216.03, 35262975.74, 36703253.61, 38202358.07, 39762691.82, 41386755.7, 43077152.7, 44836592.13, 46667893.95, 48573993.3, 50557945.2, 52622929.46, 54772255.75, 57009368.94, 59337854.58, 61761444.68, 64284023.69, 66909634.69, 69642485.91, 72486957.47, 75447608.37, 78529183.84, 81736622.91, 85075066.33, 88549864.84, 92166587.72, 95931031.71, 99849230.31, 103927463.5, 108172267.6, 112590446.2, 117189080.5, 121975540.9, 126957499.2, 132142940.1, 137540174.7, 143157853.5, 149004980.2, 155090926.5, 161425446.7, 168018693.4, 174881234.1, 182024067.8, 189458642.8, 197196874.9, 205251166.7, 213634427.2, 222360093.0, 231442149.0, 240895151.7, 250734252.1, 260975219.8, 271634468.7, 282729083.0, 294276844.7, 306296262.3, 318806599.8, 331827908.5, 345381058.3, 359487771.8, 374170658.7, 389453252.1, 405360046.4, 421916536.5, 439149258.3, 457085831.9, 475755005.4, 495186700.9, 515412062.8, 536463507.7, 558374776.0, 581180986.1, 604918691.1, 629625936.8, 655342323.1, 682109067.2, 709969069.8, 738966984.0, 769149286.3, 800564352.0, 833262531.9, 867296233.3, 902720004.2, 939590620.5, 977967177.1, 1017911182.0, 1059486657.0, 1102760237.0, 1147801278.0, 1194681973.0, 1243477458.0, 1294265942.0, 1347128826.0, 1402150837.0, 1459420162.0, 1519028591.0, 1581071660.0, 1645648812.0, 1712863547.0, 1782823595.0, 1855641085.0, 1931432726.0, 2010319994.0, 2092429326.0, 2177892326.0, 2266845968.0, 2359432825.0, 2455801291.0, 2556105823.0, 2660507184.0, 2769172705.0, 2882276551.0, 3000000000.0],
mu_1: [816.0434106, 809.4449846, 808.5477831, 812.4832301, 830.0, 840.0, 851.3550816, 855.3857072, 859.4280167, 863.329692, 868.8362314, 873.4029217, 878.6444097, 884.0783849, 889.0529029, 895.3839031, 899.4493574, 904.0126394, 907.5266357, 910.0203411, 910.9492314, 911.4432599, 910.0241714, 906.443633, 901.7612532, 894.7454962, 886.5318274, 876.4861149, 864.8268961, 851.8814883, 836.9656884, 820.9649591, 803.9201657, 786.4046357, 767.5437693, 748.078803, 728.1939222, 708.024764, 687.5199527, 667.2839247, 647.2975609, 627.2853647, 607.7149357, 588.2959163, 569.4661363, 551.1033373, 533.2520488, 515.834048, 498.6328191, 482.1858831, 466.3487294, 450.8418277, 435.856601, 421.3303978, 407.5182508, 393.9971741, 380.9413358, 368.4577648, 356.3852298, 344.7942781, 333.5853593, 322.7425848, 312.35968, 302.2204109, 292.5988049, 283.2869199, 274.2216373, 265.6180661, 257.2803026, 249.160291, 241.2841181, 233.775772, 226.2806641, 219.2852607, 212.3792322, 205.65458, 199.1326295, 192.8574158, 186.7017878, 180.6860621, 174.8067106, 169.0641159, 163.4172714, 157.8108122, 152.496357, 147.1781132, 141.9045894, 136.7576294, 131.6965718, 126.6982028, 121.9103193, 117.1243187, 112.4318844, 107.9118477, 103.3905232, 99.04778341, 94.80141586, 90.66367569, 86.61887717, 82.7360264, 78.92937687, 75.24423862, 71.61557489, 68.11114917, 64.70845403, 61.35970005, 58.16417106, 54.99950081, 51.98086999, 49.04606958, 46.21742756, 43.48953175, 40.86438026, 38.32897415, 35.9111902, 33.60366679, 31.36620548, 29.25810043, 27.26016277, 25.33436861, 23.52832203, 21.83230634, 20.20725259, 18.68336788, 17.24877159, 15.89862405, 14.65712437, 13.47214896, 12.35542792, 11.33991416, 10.36420209, 9.440788341, 8.612194737, 7.826606509, 7.078008771, 6.387697882, 5.752794218, 5.162377181, 4.592156449, 4.076342228, 3.586660745, 3.120234351, 2.695352478, 2.302422231, 1.929560777, 1.587058651, 1.261615037, 0.961547574, 0.671581848, 0.415344641, 0.167703835, -0.055788884, -0.266081108, -0.460160219, -0.6384921, -0.803665771, -0.95280532, -1.089612412, -1.218894539, -1.330816403, -1.433134834, -1.521798239, -1.61281749, -1.685171164, -1.748774697, -1.824947393, -1.869291211, -1.919426596, -1.962779073, -2.010004471, -2.056958278, -2.106915463, -2.137781096, -2.169012949, -2.208400104, -2.246651436, -2.271554896, -2.300684784, -2.321922889, -2.341299582, -2.367853582, -2.382587788, -2.397842195, -2.40574571, -2.41658175, -2.428523833, -2.429057786, -2.437691491, -2.447634592, -2.456583053, -2.466197302, -2.480427891, -2.503263931, -2.534327999, -2.56735631, -2.623242801, -2.697527559, -2.799488116, -2.941510933, -3.136445289, -3.407015884, -3.773734912, -4.274679156, -4.957240854, -5.84054521, -6.95245912, -8.229961109],
mu_2: [10.11279513, 7.770352725, 13.12514619, 18.86346319, 26.0, 39.7584741, 48.0, 52.24323758, 56.08474704, 60.66052028, 63.77378899, 68.79225981, 74.55092495, 82.10240562, 89.91580362, 99.86344223, 109.8854973, 122.0905173, 134.9205245, 150.1954341, 165.5561763, 182.6703335, 199.6600693, 217.9770489, 236.2656043, 254.5206731, 272.9632256, 290.6334221, 308.0098765, 324.8292976, 340.8766836, 355.442382, 368.9213716, 381.3955747, 392.885811, 402.6777229, 410.5907043, 417.6843355, 423.3470394, 427.9791561, 431.5502447, 433.8375244, 434.8004796, 435.3066996, 434.9828234, 433.4925342, 431.9292566, 429.3102906, 426.2907469, 423.1008996, 419.1481421, 414.7761543, 409.9786354, 405.0314957, 399.7558796, 394.3670598, 388.5238795, 382.7374037, 376.7736165, 370.7288147, 364.5412953, 358.5572719, 352.293695, 346.1714307, 340.0336128, 333.7435023, 327.7813875, 321.7860835, 315.8033369, 309.8798359, 304.1390618, 298.321386, 292.6251645, 287.063184, 281.6429841, 276.3156579, 271.0000261, 265.8900686, 260.7994498, 255.8300132, 250.9296943, 246.2315314, 241.5308595, 236.9549992, 232.489607, 228.0226635, 223.6806842, 219.3635523, 215.0323858, 210.832678, 206.6547215, 202.4945207, 198.3025938, 194.1682534, 190.0809625, 186.059191, 181.9879784, 178.0347824, 174.0459223, 170.1143112, 166.2235604, 162.4113316, 158.6054727, 154.8116149, 151.0441475, 147.3701595, 143.6761117, 140.0112141, 136.406703, 132.8270467, 129.2737356, 125.7777699, 122.3131771, 118.8394449, 115.4182493, 112.0540883, 108.7120941, 105.4466725, 102.2010201, 98.99834385, 95.86141645, 92.81023381, 89.77140325, 86.83106141, 83.92687516, 81.10449855, 78.33059554, 75.64825806, 73.04742107, 70.47486799, 68.01979237, 65.61151219, 63.29295152, 61.03288382, 58.84546545, 56.73133403, 54.67562862, 52.70152094, 50.78913283, 48.93524506, 47.14199955, 45.42751077, 43.74810579, 42.14543587, 40.58795409, 39.09008945, 37.64841345, 36.24304964, 34.90317234, 33.59938343, 32.34859618, 31.14511465, 29.97529319, 28.85230646, 27.7720412, 26.72586867, 25.72936557, 24.75833806, 23.83742534, 22.95090576, 22.09307736, 21.27675587, 20.49158785, 19.74229606, 19.02552627, 18.34444448, 17.68643739, 17.06591121, 16.46785679, 15.89743828, 15.35949916, 14.85061966, 14.35392972, 13.8833472, 13.44260977, 13.0110046, 12.60952872, 12.22325904, 11.85805387, 11.51208879, 11.18573273, 10.87660458, 10.59413026, 10.32674988, 10.0842746, 9.857029553, 9.658149541, 9.476343336, 9.322814549, 9.185113931, 9.07482699, 8.993569752, 8.940985197, 8.916090809, 8.922877831, 8.964492093, 9.045510866, 9.171683804, 9.343332921, 9.562863338, 9.833703433, 10.14060623, 10.47906645, 10.80237748, 11.05249316, 11.13324746, 10.91140156],
}
},
color : 'grey',
},
'43_old' : {
size : {
@ -489,7 +516,8 @@
freq: [10000.0, 50000.0, 100000.0, 150000.0, 200000.0, 250000.0, 300000.0, 333000.0, 400000.0, 480000.0, 500000.0, 600000.0, 640000.0, 667000.0, 800000.0, 960000.0, 1000000.0, 2000000.0, 2330000.0, 2680000.0, 3090000.0, 3560000.0, 4090000.0, 4710000.0, 5430000.0, 6250000.0, 7200000.0, 8289999.999999999, 9540000.0, 11000000.0, 12600000.0, 14600000.0, 16800000.0, 19300000.0, 22200000.0, 25600000.0, 29500000.0, 33900000.0, 39100000.0, 45000000.0, 51800000.0, 59600000.0, 68700000.0, 75600000.0, 124000000.0, 216000000.0] ,
mu_1: [791.5, 789.1, 788.0, 788.1, 788.6, 789.4, 790.6, 791.5, 793.5, 795.1, 795.3, 793.8, 791.9, 790.2, 777.6, 754.1, 747.1, 589.1, 556.6, 531.1, 501.4, 470.5, 439.8, 409.3, 378.8, 349.8, 321.8, 294.7, 268.7, 243.5, 219.8, 194.2, 171.0, 149.3, 128.7, 109.7, 92.57, 78.12, 64.65, 53.21, 43.43, 35.07, 28.03, 23.99, 10.09, 2.919] ,
mu_2: [3.5, 3.9, 5.391, 7.078, 8.472, 9.701, 10.9, 11.73, 13.55, 15.86, 16.46, 19.56, 21.21, 22.65, 35.32, 57.44, 62.8, 167.3, 186.2, 201.5, 213.2, 222.2, 227.9, 230.9, 231.5, 230.3, 227.7, 224.2, 220.0, 214.9, 209.1, 201.7, 193.6, 184.6, 174.4, 163.3, 151.8, 140.4, 128.7, 117.4, 106.5, 96.01, 85.93, 79.54, 52.37, 31.52] ,
}
},
color : 'grey',
},
'31' : {
size : {
@ -512,7 +540,8 @@
freq: [10000.0, 50000.0, 100000.0, 150000.0, 200000.0, 250000.0, 300000.0, 333000.0, 400000.0, 480000.0, 500000.0, 600000.0, 640000.0, 667000.0, 800000.0, 960000.0, 1000000.0, 2000000.0, 2330000.0, 2680000.0, 3090000.0, 3560000.0, 4090000.0, 4710000.0, 5430000.0, 6250000.0, 7200000.0, 8290000.0, 9540000.0, 11000000.0, 12600000.0, 14600000.0, 16800000.0, 19300000.0, 22200000.0, 25600000.0, 29500000.0, 33900000.0, 39100000.0, 45000000.0, 51800000.0, 59600000.0, 68700000.0, 75600000.0, 124000000.0, 216000000.0, 353000000.0, 617000000.0, 1000000000.0],
mu_1: [1423.52, 1406.98, 1401.93, 1379.45, 1386.57, 1385.58, 1387.5, 1388.08, 1388.37, 1391.6, 1390.55, 1396.46, 1392.65, 1390.14, 1463.65, 1409.68, 1400.65, 980.76, 854.67, 757.67, 668.67, 590.0, 520.67, 460.33, 409.0, 365.67, 329.0, 299.0, 272.0, 248.0, 227.0, 206.0, 187.0, 168.0, 149.6666667, 132.3333333, 115.6666667, 100.7, 86.2, 73.33333333, 61.8, 51.26666667, 43.0, 39.06, 14.7, 1.61, 0.0, 0.0, 0.0],
mu_2: [10.45, 27.02, 41.61, 57.82, 72.67, 89.6, 106.76, 119.0, 141.03, 173.33, 183.07, 228.68, 248.07, 260.16, 345.99, 444.47, 463.22, 734.77, 752.33, 728.33, 696.33, 657.67, 616.0, 571.33, 527.0, 484.33, 444.33, 408.33, 375.33, 346.67, 321.67, 299.0, 278.67, 260.0, 242.3333333, 226.3333333, 210.3333333, 195.0, 180.0, 165.3333333, 151.6666667, 138.6666667, 130.0, 125.0, 86.5, 52.1, 32.1, 18.7, 12.5],
}
},
color : 'grey',
},
};
@ -593,9 +622,19 @@
return Rac;
};
this.getWireResistance2 = function(frequency, r) {
// Al-Asadi equation:
const mu0 = Math.PI * 4e-7;
const cu_sigma = 58e6;
const delta = 1/Math.sqrt(Math.PI * frequency * this.mat.mu_i * mu0 * cu_sigma);
const k = delta * (1-Math.E**(-r/delta));
const Rac = 1/(Math.PI * cu_sigma * k * (2*r - k));
return Rac;
};
this.recalculate = function (frequencies) {
// Input variables:
this.cond_diameter_meters = 0.001 * awgToMm(40.0 - conductor_diameter_slider.value);
this.cond_diameter_meters = 0.001 * awgToMm(40.0 - conductor_diameter_slider.value)[0];
this.Vrms = 10.0 ** voltage_slider.value;
// Frequency independent characteristics:
@ -718,6 +757,7 @@
// User-selected variables:
this.cond_diameter_meters = 0.0;
this.coated_cond_diameter_meters = 0.0;
this.N = 0;
this.Vrms = 0.0;
@ -765,16 +805,21 @@
Bsat : 14800.0,
Br : 0.0,
Hc : 0.0,
mu_vs_f : { a:1.0e1, b:1.0e-90, c:1.00e1, d:1.0e-90 },
mu_vs_B : { a:1.00e4, b:1.0e-90, c:1.0e-90, d:1.0e-90, e:1.0e-90 },
mu_vs_H : { a:1.00e-2, b:1.0e-90, c:1.0e-90, d:1.0e-90 },
mu_vs_f : { a:1.0e50, b:1.0, c:1.0, d:1.0 },
//mu_vs_B : { a:1.00e4, b:1.0e-90, c:1.0e-90, d:1.0e-90, e:1.0e-90 },
mu_vs_B : { a:1.00e2, b:0.0, c:1.0, d:1.0e80, e:1.0, f:1e80 },
mu_vs_H : { a:1.00e90, b:1.0e90, c:1.0e90, d:1.0e90, e:1.0 },
CL_vs_f_B : { a:1.0e90, b:1.0e90, c:1.0e90, d:1.0e-90 },
color : '#EECFA1', // a dark tan
},
'2' : {
size : {
'T300' : { PN:'T300-2', A:77.22, B:49.02, C:12.70, W:167.0, CC:0.0, le:19.8, Ae:1.68, Ve:33.4, Al:11.4 },
'T225B': { PN:'T225-2B',A:57.15, B:35.69, C:25.40, W:189.0, CC:0.0, le:14.6, Ae:2.59, Ve:37.8, Al:21.5 },
'T225' : { PN:'T225-2', A:57.15, B:35.69, C:13.97, W:103.5, CC:0.0, le:14.6, Ae:1.42, Ve:20.7, Al:12.0 },
'T200B': { PN:'T200-2B',A:50.80, B:31.75, C:25.40, W:149.0, CC:0.0, le:13.0, Ae:2.31, Ve:29.8, Al:21.8 },
'T200' : { PN:'T200-2', A:50.80, B:31.75, C:13.97, W:82.0, CC:0.0, le:13.0, Ae:1.27, Ve:16.4, Al:12.0 },
'T184' : { PN:'T184-2', A:46.74, B:24.13, C:18.03, W:105.0, CC:0.0, le:11.2, Ae:1.88, Ve:21.0, Al:24.0 },
'T157' : { PN:'T157-2', A:39.88, B:24.13, C:14.48, W:53.5, CC:0.0, le:10.1, Ae:1.06, Ve:10.7, Al:14.0 },
'T130' : { PN:'T130-2', A:33.02, B:19.81, C:11.10, W:28.9, CC:0.0, le:8.28, Ae:0.698, Ve:5.78, Al:11.0 },
'T106' : { PN:'T106-2', A:26.92, B:14.48, C:11.10, W:21.4, CC:0.0, le:6.49, Ae:0.659, Ve:4.28, Al:13.5 },
@ -788,21 +833,25 @@
'T25' : { PN:'T25-2', A:6.48, B:3.05, C:2.44, W:0.275, CC:0.0, le:1.50, Ae:0.037, Ve:0.055, Al:3.4 },
},
manufacturer : "Micrometals",
mat : "Carbonyl Iron",
mat : "Carbonyl E",
mu_i : 10,
Bsat : 14800.0,
Br : 30.0,
Hc : 3.0,
mu_vs_f : { a:1.11e-1, b:7.01e-11, c:9.00e-1, d:1.0e0 },
mu_vs_B : { a:1.00e4, b:4.81e-4, c:6.19e0, d:-7.67e-8, e:-1.03e-3 },
mu_vs_H : { a:1.00e-2, b:1.83e-7, c:1.46e0, d:0.0e0 },
//mu_vs_B : { a:1.00e4, b:4.81e-4, c:6.19e0, d:-7.67e-8, e:-1.03e-3 },
mu_vs_B : { a:1.57e3, b:4.50e-1, c:1.25e0, d:1.16e17, e:-3.70e0, f:1.07e2 },
//mu_vs_H : { a:1.00e-2, b:1.83e-7, c:1.46e0, d:0.0e0 },
mu_vs_H : { a:1.50e-3, b:1.96e0, c:1.97e4, d:9.18e-4, e:1.48e3 },
CL_vs_f_B : { a:4.0e9, b:3.0e8, c:2.7e6, d:9.6e-16 },
color : '#CD0000', // a dark red
},
'6' : {
size : {
'T300' : { PN:'T300-6', A:77.22, B:49.02, C:12.70, W:167.0, CC:0.0, le:19.8, Ae:1.68, Ve:33.4, Al:9.5 },
'T225' : { PN:'T225-6', A:57.15, B:35.69, C:13.97, W:103.5, CC:0.0, le:14.6, Ae:1.42, Ve:20.7, Al:10.4 },
'T200' : { PN:'T200-6', A:50.80, B:31.75, C:13.97, W:82.0, CC:0.0, le:13.0, Ae:1.27, Ve:16.4, Al:10.4 },
'T184' : { PN:'T184-6', A:46.74, B:24.13, C:18.03, W:105.0, CC:0.0, le:11.2, Ae:1.88, Ve:21.0, Al:19.5 },
'T130' : { PN:'T130-6', A:33.02, B:19.81, C:11.10, W:28.9, CC:0.0, le:8.28, Ae:0.698, Ve:5.78, Al:9.6 },
'T106' : { PN:'T106-6', A:26.92, B:14.48, C:11.10, W:21.4, CC:0.0, le:6.49, Ae:0.659, Ve:4.28, Al:11.6 },
'T94' : { PN:'T94-6', A:23.93, B:14.22, C:7.92, W:10.8, CC:0.0, le:5.97, Ae:0.362, Ve:2.16, Al:7.0 },
@ -814,15 +863,18 @@
'T25' : { PN:'T25-6', A:6.48, B:3.05, C:2.44, W:0.275, CC:0.0, le:1.50, Ae:0.037, Ve:0.055, Al:2.7 },
},
manufacturer : "Micrometals",
mat : "Carbonyl Iron",
mat : "Carbonyl SF",
mu_i : 8.5,
Bsat : 14800.0,
Br : 26.0,
Hc : 3.0,
mu_vs_f : { a:1.33e-1, b:7.01e-11, c:9.00e-1, d:1.0e0 },
mu_vs_B : { a:1.00e4, b:4.81e-4, c:6.19e0, d:-7.67e-8, e:-1.03e-3 },
mu_vs_H : { a:1.00e-2, b:4.87e-8, c:1.57e0, d:0.0e0 },
//mu_vs_B : { a:1.00e4, b:4.81e-4, c:6.19e0, d:-7.67e-8, e:-1.03e-3 },
mu_vs_B : { a:1.57e3, b:4.50e-1, c:1.25e0, d:1.16e17, e:-3.70e0, f:1.07e2 },
//mu_vs_H : { a:1.00e-2, b:4.87e-8, c:1.57e0, d:0.0e0 },
mu_vs_H : { a:1.28e-3, b:1.96e0, c:2.30e4, d:9.19e-4, e:1.74e3 },
CL_vs_f_B : { a:4.0e9, b:3.0e8, c:2.7e6, d:8.9e-16 },
color : '#ECD540', // a darker yellow
},
'10' : {
size : {
@ -836,15 +888,18 @@
'T37' : { PN:'T37-10', A:9.53, B:5.21, C:3.25, W:0.72, CC:0.0, le:2.31, Ae:0.064, Ve:0.147, Al:2.5 },
},
manufacturer : "Micrometals",
mat : "Carbonyl Iron",
mat : "Carbonyl W",
mu_i : 6,
Bsat : 14600.0,
Br : 18.0,
Hc : 3.0,
mu_vs_f : { a:2.00e-1, b:7.01e-11, c:9.00e-1, d:1.0e0 },
mu_vs_B : { a:1.00e4, b:4.81e-4, c:6.19e0, d:-7.67e-8, e:-1.03e-3 },
mu_vs_H : { a:1.00e-2, b:5.54e-9, c:1.69e0, d:0.0e0 },
//mu_vs_B : { a:1.00e4, b:4.81e-4, c:6.19e0, d:-7.67e-8, e:-1.03e-3 },
mu_vs_B : { a:1.57e3, b:4.50e-1, c:1.25e0, d:1.16e17, e:-3.70e0, f:1.07e2 },
//mu_vs_H : { a:1.00e-2, b:5.54e-9, c:1.69e0, d:0.0e0 },
mu_vs_H : { a:9.13e-4, b:1.96e0, c:3.83e4, d:9.23e-4, e:2.43e3 },
CL_vs_f_B : { a:4.0e9, b:3.0e8, c:2.7e6, d:8.0e-16 },
color : '#4F4F4F',
},
};
@ -879,19 +934,21 @@
};
this.getMuFromBpk = function (B) {
return ((this.mat.mu_vs_B.a + this.mat.mu_vs_B.c * B + this.mat.mu_vs_B.e * B**2) / (1 + this.mat.mu_vs_B.b * B + this.mat.mu_vs_B.d * B**2))**0.5;
// return ((this.mat.mu_vs_B.a + this.mat.mu_vs_B.c * B + this.mat.mu_vs_B.e * B**2) / (1.0 + this.mat.mu_vs_B.b * B + this.mat.mu_vs_B.d * B**2))**0.5;
return (1 / ((1/(this.mat.mu_vs_B.a + this.mat.mu_vs_B.b * B ** this.mat.mu_vs_B.c)) + (1/(this.mat.mu_vs_B.d * B ** this.mat.mu_vs_B.e)) + (1/this.mat.mu_vs_B.f))); // ((this.mat.mu_vs_B.a + this.mat.mu_vs_B.c * B + this.mat.mu_vs_B.e * B**2) / (1.0 + this.mat.mu_vs_B.b * B + this.mat.mu_vs_B.d * B**2))**0.5;
};
this.getMuFromH = function (H) {
return 1/(this.mat.mu_vs_H.a + this.mat.mu_vs_H.b * H**this.mat.mu_vs_H.c) + this.mat.mu_vs_H.d;
this.getMuFromH = function (H, f) {
return this.getMuFromFreq(f) / ((1/(H + this.mat.mu_vs_H.a * H ** this.mat.mu_vs_H.b)) + (1/(this.mat.mu_vs_H.c * H ** this.mat.mu_vs_H.d)) + (1/this.mat.mu_vs_H.e));
// this.mat.mu_vs_H.b * H**this.mat.mu_vs_H.c) + this.mat.mu_vs_H.d;
};
// Return power loss in Watts:
this.getPdFromfB = function (f, B) {
return this.core.Ve * 1e-3 * (f / (this.mat.CL_vs_f_B.a / B**3 + this.mat.CL_vs_f_B.b / B**2.3 + this.mat.CL_vs_f_B.c / B**1.65) + this.mat.CL_vs_f_B.d * B**2 * f**2);
return this.core.Ve * 1e-3 * (f / (this.mat.CL_vs_f_B.a / B**3.0 + this.mat.CL_vs_f_B.b / B**2.3 + this.mat.CL_vs_f_B.c / B**1.65) + this.mat.CL_vs_f_B.d * B**2 * f**2);
};
this.getInductance = function (frequency) {
this.getInductanceOld = function (frequency) {
const mu = this.getMuFromFreq(frequency);
//const L = mu * 4.0 * Math.PI * this.N**2 * 1e-9 / this.core.CC;
const CC = this.core.le / this.core.Ae;
@ -899,17 +956,22 @@
return L;
};
this.getReactance = function (frequency) {
const mu = this.getMuFromFreq(frequency);
//const Lo = 4.0 * Math.PI * this.N**2 * 1e-9 / this.core.CC;
const CC = this.core.le / this.core.Ae;
const Lo = 4.0 * Math.PI * this.N**2 * 1e-9 / CC;
const Xs = 2.0 * Math.PI * frequency * Lo * mu;
this.getInductance = function (frequency, Bpk) {
//const mu = this.getMuFromFreq(frequency);
// const L = this.core.Al * this.N**2 * 1e-9;
// New method because using Ae and le did not match Al with N^2.
const L = this.getMuFromFreq(frequency) * this.getMuFromBpk(Bpk) * 1e-2 * (this.core.Al / this.mat.mu_i) * this.N**2 * 1e-9;
return L;
};
this.getReactance = function (frequency, Bpk) {
const Xs = 2.0 * Math.PI * frequency * this.getInductance(frequency, Bpk);
return Xs;
};
this.getWireResistance = function(frequency) {
// Calculate AC wire-resistance, using IEC 60287-1-1:
// Calculate AC wire-resistance, using IEC 60287-1-1: - this seemed really hopeless for high-frequencies:
const Ks = 1.0; // Solid core conductor
const xs4 = ((8 * Math.PI * frequency * Ks) / (this.Rdc * 1e7))**2;
const Ys = xs4 / (192.0 + 0.8 * xs4);
@ -917,11 +979,40 @@
return Rac;
};
this.getWireResistance2 = function(frequency, wire_radius_meter) {
// Al-Asadi equation for AC resistance in Ohms/meter:
const mu0 = Math.PI * 4e-7;
const cu_sigma = 58e6;
const delta = 1/Math.sqrt(Math.PI * frequency * this.mat.mu_i * mu0 * cu_sigma);
const k = delta * (1-Math.E**(-wire_radius_meter/delta));
const Rac = 1/(Math.PI * cu_sigma * k * (2*wire_radius_meter - k));
return Rac;
};
/*
this.CC = function(N, Ctt) {
if(N)
}
this.getEquivalentCapacitance = function() {
const d0 = 1e3 * this.coated_cond_diameter_meters ; // wire diameter including resin coating
const dc = 1e3 * this.cond_diameter_meters; // wire diameter without coating (core diameter)
const er = 3.0; // resin relative permittivity
const p = 17.24e-6;
const e0 = 8.85418782e-12;
const lt = this.cond_length_meters / this.N;
const q = Math.acos(1 - Math.log(d0/dc)/er);
const Ctt = e0 * lt * ((er*q/Math.log(d0/dc)) + (1/Math.tan(q*0.5)) - (1/Math.tan(p/12)));
const cN = (Ctt / (2 + (Ctt / (C*(N-2))))) + Ctt;
return cN;
}
*/
this.I_inductor = function (frequency, voltage) {
const K1 = 4.44 * frequency * this.N * this.core.Ae * 1e-8;
const K2 = 0.4 * Math.PI * this.N / this.core.le;
const B = voltage * 1e8 / (4.44 * frequency * this.N * this.core.Ae);
const mu = this.getMuFromFreq(frequency) * this.getMuFromBpk(B) * 1e-2;
var mu = this.getMuFromFreq(frequency);
mu *= this.getMuFromBpk(B);
mu *= 1e-2;
return voltage / (mu * K1 * K2 * 1.414);
}
@ -948,13 +1039,13 @@
break;
}
if(i_inductor > (i_wire * 1.005)) {
if(i_inductor > (i_wire * 1.001)) {
voltage_lower = voltage_fraction;
voltage_fraction = 0.5 * (voltage_lower + voltage_upper);
continue;
}
if(i_wire > (i_inductor * 1.005)) {
if(i_wire > (i_inductor * 1.001)) {
voltage_upper = voltage_fraction;
voltage_fraction = 0.5 * (voltage_lower + voltage_upper);
continue;
@ -963,18 +1054,20 @@
// Current's are within 1% of each other, which is good-enough for now.
break;
}
const Rac = this.getWireResistance(frequency);
//console.log(count, frequency, i_inductor, i_wire);
const Rac = this.cond_length_meters * this.getWireResistance2(frequency, this.cond_diameter_meters*0.5);
const V = (voltage - voltage_fraction);
//console.log(count, frequency, V, i_wire);
const B = V * 1e8 / (4.44 * frequency * this.N * this.core.Ae);
const B = V * 1.0e8 / (4.44 * frequency * this.N * this.core.Ae);
const Pd = this.getPdFromfB(frequency, B);
const Pw = (i_wire**2 * Rac);
const X = this.getReactance(frequency);
const X = this.getReactance(frequency, B);
const Xc = 1/(2*Math.PI*frequency*this.C);
const H = 0.4 * Math.PI * this.N * i_inductor / this.core.le;
const Ri = Pd / i_inductor**2;
const Q = X / (Ri+Rac);
const Q = X / (Ri + Rac);
const mu = this.getMuFromFreq(frequency) * this.getMuFromBpk(B) * 1e-2;
const L = this.getInductance(frequency);
const L = this.getInductance(frequency, B);
return {
V : V, // Voltage across inductor in the L-R model.
I : i_wire,
@ -997,8 +1090,8 @@
this.recalculate = function (awg, turns_density, voltage, frequencies) {
// Input variables:
// awg = 40.0 - conductor_diameter_slider.value;
this.cond_diameter_meters = 0.001 * awgToMm(awg);
// voltage = voltage_slider.value;
this.cond_diameter_meters = 0.001 * awgToMm(awg)[0];
this.coated_cond_diameter_meters = 0.001 * awgToMm(awg)[1];
this.Vrms = 10.0 ** voltage;
// Frequency independent characteristics:
@ -1007,17 +1100,15 @@
//this.cond_length_meters = this.N * (2*this.core.C + this.core.A - this.core.B) * 1e-3;
//this.cond_length_meters = 2e-3 * Math.sqrt ( (Math.PI * 0.5 * (this.core.A + this.core.B))**2 + (this.N * (2*this.core.C + this.core.A - this.core.B))**2 );
this.cond_length_meters = 2e-3 * Math.sqrt ( (Math.PI * 0.5 * (this.core.A + this.core.B))**2 + (this.N * (4*(this.cond_diameter_meters*1e3) + 2*this.core.C + this.core.A - this.core.B))**2 );
this.cond_length_meters = 1e-3 * Math.sqrt ( (Math.PI * 0.5 * (this.core.A + this.core.B))**2 + (this.N * (4*(this.cond_diameter_meters*1e3) + 2*this.core.C + this.core.A - this.core.B))**2 );
this.Rdc = 1.68e-8 * this.cond_length_meters / (Math.PI * ((this.cond_diameter_meters*0.5)**2.0));
//const Cpmult = 12.9*()
//this.C = (0.9 + (78.1/this.N**2))*1e-12; // In Farads
this.L = (this.N**2) * this.core.Al * 1.0e-9; // In Henries
// Based on David Knight's equation:
this.C = (0.9 + (78.1/this.N**2))*1e-12; // In Farads
//this.C = this.getEquivalentCapacitance();
this.SRF = 1.0/(2.0*Math.PI* Math.sqrt(this.L*this.C));
// Clear the frequency dependent characteristics before appending new data:
@ -1368,7 +1459,8 @@
this.updateChart = function () {
if(this.t_type == 'ferrite') {
this.myChart.options.plugins.title.text
= this.ferrite.mat.manufacturer + " " + this.t_size + "-" + this.t_material + " [" + this.ferrite.core.PN + "]";
= this.ferrite.mat.manufacturer + " " + this.t_size + "-" + this.t_material + " [" + this.ferrite.core.PN + "]"
+ " : " + this.toroid.N + 't #' + (40.0 - conductor_diameter_slider.value) + ' AWG';
this.myChart.data.datasets[0].data = this.ferrite.calculateInductance();
this.myChart.data.datasets[1].data = this.ferrite.calculateImpedance();
this.myChart.data.datasets[2].data = this.ferrite.calculateReactance();
@ -1383,7 +1475,8 @@
this.myChart.update();
} else {
this.myChart.options.plugins.title.text
= this.powdered_iron.mat.manufacturer + " " + this.t_size + "-" + this.t_material + " [" + this.powdered_iron.core.PN + "]";
= this.powdered_iron.mat.manufacturer + " " + this.t_size + "-" + this.t_material + " [" + this.powdered_iron.core.PN + "]"
+ " : " + this.toroid.N + 't #' + (40.0 - conductor_diameter_slider.value) + ' AWG';
this.myChart.data.datasets[0].data = this.powdered_iron.calculateInductance();
this.myChart.data.datasets[1].data = this.powdered_iron.calculateImpedance();
this.myChart.data.datasets[2].data = this.powdered_iron.calculateReactance();
@ -1674,15 +1767,15 @@
title: function(context) {
var value = context[0].parsed.x;
var postlabel = " kHz";
if(value >= 1e6) {
if(value >= 1.0e6) {
value *= 1e-6;
postlabel = " GHz";
} else
if(value >= 1e3) {
if(value >= 1.0e3) {
value *= 1e-3;
postlabel = " MHz";
}
var label = 'Freq = ' + value.toPrecision(3).toString() + postlabel;
var label = 'Freq = ' + value.toPrecision(4).toString() + postlabel;
return label;
},
label: function(context) {
@ -1759,7 +1852,7 @@
}
function getMaxTurnsFrom() {
var cond_diameter_meters = 0.001 * awgToMm(40.0 - conductor_diameter_slider.value);
var cond_diameter_meters = 0.001 * awgToMm(40.0 - conductor_diameter_slider.value)[1];
var N_max = Math.PI / (Math.atan2(0.5e3 * cond_diameter_meters, (0.5 * toroid.core.B - 0.5e3 * cond_diameter_meters)));
return N_max;
}
@ -1771,8 +1864,8 @@
l_inductors = {
sort_order : {
"Ferrites" : ["75", "78", "77", "79", "43", "43_old", "80", "52", "61", "67"],
"Powdered Iron" : []
// "Powdered Iron" : ["2", "6", "10", "0"]
// "Powdered Iron" : []
"Powdered Iron" : ["2", "6", "10", "0"]
},
"75":"75 [\u03bci=5000]",
"78":"78 [\u03bci=2300]",
@ -1992,7 +2085,7 @@
const afront_canvas = document.getElementById("inductor2D");
const fctx = afront_canvas.getContext('2d');
function drawInductor(fctx, originX, originY, outerRadius, innerRadius, wireRadius, turns, width) {
function drawInductor(fctx, originX, originY, outerRadius, innerRadius, wireRadius, turns, width, toroid_colour) {
let theta = Math.PI/(turns);
var front_originX = originX - 0.5*(1*outerRadius + 20 + width);
@ -2023,7 +2116,8 @@
// Draw front profile of toroid former:
fctx.lineWidth = outerRadius - innerRadius;
fctx.strokeStyle = "#7F7F7F"; // rgb(100, 100, 100);
//fctx.strokeStyle = "#7F7F7F"; // rgb(100, 100, 100);
fctx.strokeStyle = toroid_colour; // rgb(100, 100, 100);
fctx.beginPath();
fctx.arc(front_originX, originY, 0.5 * (outerRadius + innerRadius), 0.0, 2.0 * Math.PI, false);
fctx.stroke();
@ -2034,7 +2128,8 @@
fctx.fillStyle = "#7F7F7F"; // rgb(100, 100, 100);
fctx.fillRect(side_originX, originY - outerRadius, width, (outerRadius - innerRadius));
fctx.fillRect(side_originX, originY + innerRadius, width, (outerRadius - innerRadius));
fctx.fillStyle = 'lightgrey';
//fctx.fillStyle = 'lightgrey';
fctx.fillStyle = toroid_colour; // rgb(100, 100, 100);
fctx.fillRect(side_originX, originY - innerRadius, width, (2 * innerRadius));
// Write width of cross-section of toroid (not including winding wire thickness):
@ -2231,7 +2326,7 @@
let inner_radius = outer_radius * controller.toroid.core.B / controller.toroid.core.A;
let thickness = 2.0 * outer_radius * controller.toroid.core.C / controller.toroid.core.A;
drawInductor(fctx, loopx, loopy, outer_radius, inner_radius, cond_radius, controller.toroid.N, thickness);
drawInductor(fctx, loopx, loopy, outer_radius, inner_radius, cond_radius, controller.toroid.N, thickness, controller.toroid.mat.color);
//drawTransformer(fctx, loopx, loopy, outer_radius, inner_radius, cond_radius, toroid.N);
const y_offset = loopy + outer_radius + 20;
@ -2264,7 +2359,8 @@
fctx.textAlign = "center";
fctx.font = "bold 16px courier";
fctx.fillText((40-conductor_diameter_slider.value).toString() + " AWG", loopx, 20);
fctx.fillText("N = " + controller.toroid.N.toString(), loopx, win_height - 28);
//fctx.fillText("N = " + controller.toroid.N.toString() + " : Nd = " + (loop_turns_slider.value*100).toFixed(0) + "%", loopx, win_height - 28);
fctx.fillText("Nd = " + (loop_turns_slider.value*100).toFixed(0) + "% : N = " + controller.toroid.N.toString(), loopx, win_height - 28);
fctx.font = "12px arial";
fctx.fillText("wire = " + (controller.toroid.cond_length_meters*100.0).toFixed(1)+ " cm (" + (3.2808399*controller.toroid.cond_length_meters).toFixed(2)+ "\')", loopx, win_height - 14);
@ -2277,21 +2373,21 @@
fctx.textAlign = "right";
fctx.fillText("Size " + controller.t_size, win_width-18, 18);
fctx.fillText("Material " + controller.t_material, win_width-18, 32);
fctx.fillText("\u03bci = " + controller.toroid.mat.mu_i, win_width-18, 46);
fctx.fillText("\u03bci: " + controller.toroid.mat.mu_i, win_width-18, 46);
if(controller.toroid.mat.B) {
fctx.fillText("B = " + controller.toroid.mat.B + " G", win_width-18, 60);
fctx.fillText("H = " + controller.toroid.mat.H + " Oe", win_width-18, 74);
fctx.fillText("Br = " + controller.toroid.mat.Br + " G", win_width-18, 88);
fctx.fillText("Hc = " + controller.toroid.mat.Hc + " Oe", win_width-18, 102);
fctx.fillText("B: " + controller.toroid.mat.B + " G", win_width-18, 60);
fctx.fillText("H: " + controller.toroid.mat.H + " Oe", win_width-18, 74);
fctx.fillText("Br: " + controller.toroid.mat.Br + " G", win_width-18, 88);
fctx.fillText("Hc: " + controller.toroid.mat.Hc + " Oe", win_width-18, 102);
fctx.fillText("Tc >= " + controller.toroid.mat.Tc + " C", win_width-18, 116);
fctx.fillText("Type = " + controller.toroid.mat.mat, win_width-18, 130);
fctx.fillText("Type: " + controller.toroid.mat.mat, win_width-18, 130);
fctx.fillText("[" + controller.toroid.core.PN + "]", win_width-18, 144);
} else {
fctx.fillText("Bsat = " + controller.toroid.mat.Bsat + " G", win_width-18, 60);
fctx.fillText("Br = " + controller.toroid.mat.Br + " G", win_width-18, 74);
fctx.fillText("Hc = " + controller.toroid.mat.Hc + " Oe", win_width-18, 88);
fctx.fillText("Mass = " + controller.toroid.core.W + " g", win_width-18, 102);
fctx.fillText("Type = " + controller.toroid.mat.mat, win_width-18, 116);
fctx.fillText("Bsat: " + controller.toroid.mat.Bsat + " G", win_width-18, 60);
fctx.fillText("Br: " + controller.toroid.mat.Br + " G", win_width-18, 74);
fctx.fillText("Hc: " + controller.toroid.mat.Hc + " Oe", win_width-18, 88);
fctx.fillText("Mass: " + controller.toroid.core.W + " g", win_width-18, 102);
fctx.fillText("Type: " + controller.toroid.mat.mat, win_width-18, 116);
fctx.fillText("[" + controller.toroid.core.PN + "]", win_width-18, 130);
}
}