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Re-ordered axis so that loss resistance is next to radiation resistance

pull/2/head
miguel 2020-10-27 20:57:21 +11:00
rodzic 1de168ba5c
commit a6fd60b2a4
1 zmienionych plików z 12 dodań i 11 usunięć
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magloop.html
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@ -322,8 +322,8 @@
myChart.data.datasets[1].data = calculateBandwidth();
myChart.data.datasets[2].data = calculateEfficiencyFactor();
myChart.data.datasets[3].data = calculateRadiationResistance();
myChart.data.datasets[4].data = calculateInductiveReactance();
myChart.data.datasets[5].data = calculateLossResistance();
myChart.data.datasets[4].data = calculateLossResistance();
myChart.data.datasets[5].data = calculateInductiveReactance();
myChart.data.datasets[6].data = calculateQualityFactor();
myChart.data.datasets[7].data = calculateCapacitorVoltage();
myChart.update();
@ -337,8 +337,8 @@
myChart.data.datasets[1].data = calculateBandwidth();
myChart.data.datasets[2].data = calculateEfficiencyFactor();
myChart.data.datasets[3].data = calculateRadiationResistance();
myChart.data.datasets[4].data = calculateInductiveReactance();
myChart.data.datasets[5].data = calculateLossResistance();
myChart.data.datasets[4].data = calculateLossResistance();
myChart.data.datasets[5].data = calculateInductiveReactance();
myChart.data.datasets[6].data = calculateQualityFactor();
myChart.data.datasets[7].data = calculateCapacitorVoltage();
myChart.update();
@ -352,8 +352,8 @@
myChart.data.datasets[1].data = calculateBandwidth();
myChart.data.datasets[2].data = calculateEfficiencyFactor();
myChart.data.datasets[3].data = calculateRadiationResistance();
myChart.data.datasets[4].data = calculateInductiveReactance();
myChart.data.datasets[5].data = calculateLossResistance();
myChart.data.datasets[4].data = calculateLossResistance();
myChart.data.datasets[5].data = calculateInductiveReactance();
myChart.data.datasets[6].data = calculateQualityFactor();
myChart.data.datasets[7].data = calculateCapacitorVoltage();
myChart.update();
@ -368,8 +368,8 @@
myChart.data.datasets[1].data = calculateBandwidth();
myChart.data.datasets[2].data = calculateEfficiencyFactor();
myChart.data.datasets[3].data = calculateRadiationResistance();
myChart.data.datasets[4].data = calculateInductiveReactance();
myChart.data.datasets[5].data = calculateLossResistance();
myChart.data.datasets[4].data = calculateLossResistance();
myChart.data.datasets[5].data = calculateInductiveReactance();
myChart.data.datasets[6].data = calculateQualityFactor();
myChart.data.datasets[7].data = calculateCapacitorVoltage();
myChart.update();
@ -787,11 +787,12 @@
plugins: {
crosshair: {
line: {
color: 'red', // crosshair line color
width: 1 // crosshair line width
color: 'red', // crosshair line color
width: 1, // crosshair line width
dashPattern: [100, 100]
},
sync: {
enabled: true, // enable trace line syncing with other charts
enabled: false, // enable trace line syncing with other charts
group: 1, // chart group
suppressTooltips: true // suppress tooltips when showing a synced tracer
},