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@@ -106,28 +106,28 @@ function onload(){ //Bind events
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})
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})
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// Information for simple usage
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// Information for simple usage
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- tippy('#boxAdress', {delay: 3000, content: "The i2c adress used for communication with the board. This is automatically obtained.",})
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- tippy('#outOfLock', {delay: 3000, content: "The box is out of lock when the output of the board is maximum, and thus fluctuations cannot be stabilized anymore.",})
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- tippy('#piFreq', {delay: 3000, content: "Frequency at which the Pi polls the board for new waveforms, typically no more than 10Hz as this can disturb the board.",})
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- tippy('#boardFreq', {delay: 3000, content: "Frequency at which the board is currently measuring waveforms (untested).",})
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- tippy('#remoteTrigg', {delay: 3000, content: "If true, the board will continously trigger, ignoring the trigger input. For normal operation set to false.",})
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- tippy('#enabGnd', {delay: 3000, content: "If true (recommended), the board stabilizes signal-gnd, otherwise it stabilizes signal",})
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- tippy('#Vlearn', {delay: 3000, content: "The output voltage (0-4095) when the box is in learn mode. This can be used to select an appropiate input power. Small values will unnecessarily suppress the signal and large values (>3500, see response function) may result in out_of_lock due to the limited range.",})
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- tippy('#start', {delay: 3000, content: "Point # where the signal starts being measured. Sampling frequency ~1MHz.",})
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- tippy('#stop', {delay: 3000, content: "Point # where the signal stop being measured. Sampling frequency ~1MHz.",})
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- tippy('#startGnd', {delay: 3000, content: "Point # where the ground starts being measured. Sampling frequency ~1MHz.",})
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- tippy('#stopGnd', {delay: 3000, content: "Point # where the ground stops being measured. Sampling frequency ~1MHz.",})
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- tippy('#N', {delay: 3000, content: "Number of waveforms (typ. 1) to sample in each stabilization cycle.",})
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- tippy('#wfLen', {delay: 3000, content: "Number of points to sample (1-255)",})
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- tippy('#stepMax', {delay: 3000, content: "Maximum step allowed in one stabilization cycle (typ. 200) . Small values may lead to slow response to sharp fluctuations.",})
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- tippy('#Gain', {delay: 3000, content: "At every step Vout += (Vmeasured-Vset)*Gain",})
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- tippy('#calibrateGain', {delay: 3000, content: "Automatically select a loop gain based on the response function of the system.",})
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- tippy('#autoSetPga', {delay: 3000, content: "When True, the board changes the input gain and offset so that the signal is in an appropiate range (not clipped and going >2000). Set to False to select it manually.",})
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- tippy('#inputGain', {delay: 3000, content: "Allowed values: [1, 2, 4, 8, 16, 32, 64, 128]",})
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- tippy('#offset', {delay: 3000, content: "Input offset (0-4096). 2000 corresponds to no offset.",})
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- tippy('#coarseFineRatio', {delay: 3000, content: "Ratio of the precision in the fine and broad outputs. Typ. 20 from circuit design.",})
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- tippy('#calibrateCoarseFineRatio', {delay: 3000, content: "Calibrate the ratio by measuring the response functions of the broad and fine outputs.",})
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- tippy('#measureResponseFunction', {delay: 3000, content: "Measure the photodiode signal as a funtion of the output voltage.",})
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+ tippy('#boxAdress', {delay: [1000, 0], content: "The i2c adress used for communication with the board. This is automatically obtained.",})
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+ tippy('#outOfLock', {delay: [1000, 0], content: "The box is out of lock when the output of the board is maximum, and thus fluctuations cannot be stabilized anymore.",})
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+ tippy('#piFreq', {delay: [1000, 0], content: "Frequency at which the Pi polls the board for new waveforms, typically no more than 10Hz as this can disturb the board.",})
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+ tippy('#boardFreq', {delay: [1000, 0], content: "Frequency at which the board is currently measuring waveforms (untested).",})
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+ tippy('#remoteTrigg', {delay: [1000, 0], content: "If true, the board will continously trigger, ignoring the trigger input. For normal operation set to false.",})
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+ tippy('#enabGnd', {delay: [1000, 0], content: "If true (recommended), the board stabilizes signal-gnd, otherwise it stabilizes signal",})
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+ tippy('#Vlearn', {delay: [1000, 0], content: "The output voltage (0-4095) when the box is in learn mode. This can be used to select an appropiate input power. Small values will unnecessarily suppress the signal and large values (>3500, see response function) may result in out_of_lock due to the limited range.",})
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+ tippy('#start', {delay: [1000, 0], content: "Point # where the signal starts being measured. Sampling frequency ~1MHz.",})
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+ tippy('#stop', {delay: [1000, 0], content: "Point # where the signal stop being measured. Sampling frequency ~1MHz.",})
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+ tippy('#startGnd', {delay: [1000, 0], content: "Point # where the ground starts being measured. Sampling frequency ~1MHz.",})
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+ tippy('#stopGnd', {delay: [1000, 0], content: "Point # where the ground stops being measured. Sampling frequency ~1MHz.",})
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+ tippy('#N', {delay: [1000, 0], content: "Number of waveforms (typ. 1) to sample in each stabilization cycle.",})
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+ tippy('#wfLen', {delay: [1000, 0], content: "Number of points to sample (1-255)",})
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+ tippy('#stepMax', {delay: [1000, 0], content: "Maximum step allowed in one stabilization cycle (typ. 200) . Small values may lead to slow response to sharp fluctuations.",})
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+ tippy('#Gain', {delay: [1000, 0], content: "At every step Vout += (Vmeasured-Vset)*Gain",})
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+ tippy('#calibrateGain', {delay: [1000, 0], content: "Automatically select a loop gain based on the response function of the system.",})
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+ tippy('#autoSetPga', {delay: [1000, 0], content: "When True, the board changes the input gain and offset so that the signal is in an appropiate range (not clipped and going >2000). Set to False to select it manually.",})
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+ tippy('#inputGain', {delay: [1000, 0], content: "Allowed values: [1, 2, 4, 8, 16, 32, 64, 128]",})
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+ tippy('#offset', {delay: [1000, 0], content: "Input offset (0-4096). 2000 corresponds to no offset.",})
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+ tippy('#coarseFineRatio', {delay: [1000, 0], content: "Ratio of the precision in the fine and broad outputs. Typ. 20 from circuit design.",})
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+ tippy('#calibrateCoarseFineRatio', {delay: [1000, 0], content: "Calibrate the ratio by measuring the response functions of the broad and fine outputs.",})
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+ tippy('#measureResponseFunction', {delay: [1000, 0], content: "Measure the photodiode signal as a funtion of the output voltage.",})
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setTimeout(loop, 100)
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setTimeout(loop, 100)
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@@ -379,6 +379,6 @@ function message(txt){
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gravity: 'bottom',
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gravity: 'bottom',
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position: 'left',
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position: 'left',
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close: true,
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close: true,
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- backgroundColor: "white",
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+ backgroundColor: "grey",
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duration: 3000,}).showToast()
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duration: 3000,}).showToast()
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}
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}
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jarjonam