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lab05_en:inverting_op-amp_photo_diode_as_current_source [2026/04/20 17:35] mexleadminlab05_en:inverting_op-amp_photo_diode_as_current_source [2026/04/28 16:13] (current) mexleadmin
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 <imgcaption Fig-110_inverting_op-amp_photo_diode_diagramms | Inverting Op-Amp: Diagramms of BPW 34 S> </imgcaption>\\ <imgcaption Fig-110_inverting_op-amp_photo_diode_diagramms | Inverting Op-Amp: Diagramms of BPW 34 S> </imgcaption>\\
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-We are assuming a well-lit room with an illuminance of 300 lx, lit by a white LED. White light is a mixture of many wavelengths across the visible spectrum, roughly 380 to 780 nm.\\ +We are assuming a well-lit room with an illuminance of 300 lx, lit by a white LED. White light is a mixture of many wavelengths across the visible spectrum, roughly 380 to 780 nm. For a typical white LED, the spectrum usually comes from a blue LED chip with a peak around 450 nm, plus a broader phosphor emission that spreads across green, yellow, and red wavelengths. For an easier calculation, we take a mean value of 500 nm which is close to the peak value of the blue LED and 300 lx for the illumination. (500 nm is in reality a greenish light and not blue)\\
-For a typical white LED, the spectrum usually comes from a blue LED chip with a peak around 450 nm, plus a broader phosphor emission that spreads across green, yellow, and red wavelengths.\\ +
-For an easier calculation, we take a mean value of 500 nm which is close to the peak value of the blue LED and 300 lx for the illumination. (500 nm is in reality a greenish light and not blue)\\+
 The graph in <imgref Fig-110_inverting_op-amp_photo_diode_diagramms> shows that the photodiode sensitivity at 500 nm is only 30%. The maximim current (100%) at 300 lx is 30 ${\rm\mu}$A.\\ The graph in <imgref Fig-110_inverting_op-amp_photo_diode_diagramms> shows that the photodiode sensitivity at 500 nm is only 30%. The maximim current (100%) at 300 lx is 30 ${\rm\mu}$A.\\
 We can now estimate the current we would expect from the photodiode at 300 lx:\\ We can now estimate the current we would expect from the photodiode at 300 lx:\\
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 Complete the arrows in the circuit diagram in <imgref Fig-100_inverting_op-amp_photo_diode>.\\ Complete the arrows in the circuit diagram in <imgref Fig-100_inverting_op-amp_photo_diode>.\\
-Calculate ${\rm R_2}$ so that $U_{\rm OUT}$ = 5 V at 300 lx. +\\ 
 +Calculate $R_{\rm 2}$ so that $U_{\rm OUT}$ = 5 V at 300 lx. 
 Take a resistor from the E6 series that is as close as possible to the calculated value.\\ Take a resistor from the E6 series that is as close as possible to the calculated value.\\
 Also enter the values for $I_{\rm 1}$, $I_{\rm 2}$, $U_{\rm 2}$ and $U_{\rm OUT}$.\\ Also enter the values for $I_{\rm 1}$, $I_{\rm 2}$, $U_{\rm 2}$ and $U_{\rm OUT}$.\\
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 {{drawio>lab05:Table-1_inverting_op-amp_photo_diode.svg}}\\ {{drawio>lab05:Table-1_inverting_op-amp_photo_diode.svg}}\\
-<tabcaption lab05:Table-1_inverting_op-amp_photo_diode | Photodiode measured and calculated values> </tabcaption> +<tabcaption lab05:Table-1_inverting_op-amp_photo_diode | Photodiode measured and calculated values> </tabcaption>\\ 
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