kopia lustrzana https://github.com/miguelvaca/vk3cpu
Updated formula used to calculate Q
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MagloopQ.png
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MagloopQ.png
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magloop.html
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magloop.html
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@ -7,7 +7,7 @@
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<link rel="stylesheet" href="magloop.css">
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</head>
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<body>
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<header>Miguel <a href="mailto:vk3cpu@gmail.com">VK3CPU</a> - Magloop Antenna Calculator V3</header>
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<header>Miguel <a href="mailto:vk3cpu@gmail.com">VK3CPU</a> - Magloop Antenna Calculator V4</header>
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<section class="gridLayoutClass">
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<div class="chart-container" style="position: relative;">
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<canvas id="chartCanvas" class="chartCanvasClass">
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@ -65,8 +65,7 @@
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</canvas>
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</div>
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<div class="notes">
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<b><u>Notes:</u></b><br>
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The Magloop Antenna Calculator was developed to predict the characteristics of a small-loop (aka "magnetic loop" or "magloop")
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<b><u>Notes:</u></b><br> The Magloop Antenna Calculator was developed to predict the characteristics of a small-loop (aka "magnetic loop" or "magloop")
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antenna, given physical dimensions entered via slider widgets. It assumes the main loop is made from a round
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anodised copper or aluminium conductor. I developed this multi-turn capable magloop calculator to take advantage of the
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touch-screens and high-speed of modern mobile phones, to allow users to get realtime feedback of the predicted
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@ -112,6 +111,8 @@
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<img src="I_loop.png" alt="magloop antenna loop current"><br>
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<br>
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<b><u>Change history:</u></b><br>
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[16-Sep-21] : Updated equation used for Q to match the one use in the ARRL Antenna Book. Changed to V4. This will affect predictions for V_cap, I_loop and BW. Based on reading
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"Impedance, Bandwidth, and Q of Antennas" by A D Yaghjian, IEEE Transactions on Antennas and Propagation, April 2005.<br>
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[16-Sep-21] : Added equation graphics for V_cap and I_loop formulas.<br>
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[12-Sep-21] : Set maximum values to Q, Vcap and I axes to stop autoscaling. Max Q set to 2000, Vcap to 20 kV and I to 100 A.<br>
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[12-Sep-21] : Added formula/equation graphics in Notes section. A few more complex ones, such as effective capacitance and SRF, are still needed.<br>
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@ -344,7 +345,7 @@
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const Xl = inductiveReactance(frequency);
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const Rl = lossResistance(frequency);
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const Rr = radiationResistance(frequency);
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const Q = Xl / (Rl + Rr);
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const Q = Xl / (2.0 * (Rl + Rr));
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return Q;
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}
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@ -1020,7 +1021,7 @@
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},
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ticks: {
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beginAtZero: true,
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max: 20.0,
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max: 10.0,
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},
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min: 0.0,
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position: 'left',
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@ -1075,7 +1076,7 @@
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},
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ticks: {
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beginAtZero: true,
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max: 3000.0,
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max: 1800.0,
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},
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position: 'right',
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id: 'qID'
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