Team:Grenoble-EMSE-LSU/Project/Monitoring/Cell2Machine

From 2013.igem.org

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<p>Before measuring with the photodiode, we need to know if the photodiode works as indicated in the datasheet. The photodiode was plug on a 5V stabilized power supply.</br></p>
<p>Before measuring with the photodiode, we need to know if the photodiode works as indicated in the datasheet. The photodiode was plug on a 5V stabilized power supply.</br></p>
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                                         <p align="center", style="margin:40px"><img src="https://static.igem.org/mediawiki/2013/5/5f/IGEMerworkphotodiode.png" alt="memberworkingonphotodiode" width="500px"></p>
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                                         <p align="center", style="margin:20px"><img src="https://static.igem.org/mediawiki/2013/5/5f/IGEMerworkphotodiode.png" alt="memberworkingonphotodiode" width="500px"></p>
                                         <p>For the same amount of light, we measure the frequency at the output of the photodiode for a pulse train or a square wave (50% duty cycle). According to the datasheet, when using a pulse train the linear relation between the frequency and the irrandiance is given by 1kHz=1µW/cm². When using a square wave (50% duty cycle) it is 1kHz=2µW/cm². This is what we can see on the figure #.
                                         <p>For the same amount of light, we measure the frequency at the output of the photodiode for a pulse train or a square wave (50% duty cycle). According to the datasheet, when using a pulse train the linear relation between the frequency and the irrandiance is given by 1kHz=1µW/cm². When using a square wave (50% duty cycle) it is 1kHz=2µW/cm². This is what we can see on the figure #.

Revision as of 21:07, 15 September 2013

Grenoble-EMSE-LSU, iGEM


Grenoble-EMSE-LSU, iGEM

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