def IV_curve_plot(data, fig): title = 'I/O pin current vs. output voltage' extend(data) fw = FigureWrapper( data, fig, x='voltage', y='I (A)', title=title, xlimits=[-5, 5], ylimits=[-0.020, 0.020], ) x = 'Vx' y = 'I' fw.subplot.plot( [0, data.Vmax], [data.Imax, 0], 'b-') fw.subplot.plot( [0, -data.Vmax], [-data.Imax, 0], 'b-') fw.addcol(legend='', x=x, y=y) return fig
def processed_analog_value_time_plot(data, fig): fw = FigureWrapper(data, fig, x='time', y='voltage') extend(data) # fw.addcol(legend='rel pwm', y=lambda e: e.pwm_value/255*1023) fw.addcol(legend='Vin', y=lambda e: e.Vin) fw.addcol(legend='Vout', y=lambda e: e.Vout) fw.addcol(legend='Vamp', y=lambda e: e.Vamp) fw.addcol(legend='Vx', y=lambda e: e.Vx) fw.addcol(legend='I', y=lambda e: e.I) return fig
def processed_analog_value_time_plot(data, fig): fw = FigureWrapper( data, fig, x='time', y='voltage') extend(data) # fw.addcol(legend='rel pwm', y=lambda e: e.pwm_value/255*1023) fw.addcol(legend='Vin', y=lambda e: e.Vin) fw.addcol(legend='Vout', y=lambda e: e.Vout) fw.addcol(legend='Vamp', y=lambda e: e.Vamp) fw.addcol(legend='Vx', y=lambda e: e.Vx) fw.addcol(legend='I', y=lambda e: e.I) return fig
def IV_curve_plot(data, fig): title = 'I/O pin current vs. output voltage' extend(data) fw = FigureWrapper( data, fig, x='voltage', y='I (A)', title=title, xlimits=[-5, 5], ylimits=[-0.020, 0.020], ) x = 'Vx' y = 'I' fw.subplot.plot([0, data.Vmax], [data.Imax, 0], 'b-') fw.subplot.plot([0, -data.Vmax], [-data.Imax, 0], 'b-') fw.addcol(legend='', x=x, y=y) return fig