Bologna

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==Project==
==Project==
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The Team's project consists of a Genetic [http://en.wikipedia.org/wiki/Schmitt_trigger Schmitt Trigger], a comparator circuit with an incorporated positive feedback. The main feature of this kind of circuit is the so called hysteresis, which is obtained through a dual threshold action: being T<sub>H</sub> and T<sub>L</sub> the two thresholds, if input is higher than T<sub>H</sub>, output is at an high level; in case of input being lower than T<sub>L</sub>, output results low. Instead, when input is between T<sub>H</sub> and T<sub>L</sub>, output retains its value.
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Our project consists in a Genetic [http://en.wikipedia.org/wiki/Schmitt_trigger Schmitt Trigger].
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"When the input is higher than a certain chosen threshold, the output is high; when the input is below another (lower) chosen threshold, the output is low; when the input is between the two, the output retains its value. The trigger is so named because the output retains its value until the input changes sufficiently to trigger a change. This dual threshold action is called hysteresis."
It is worth to remark that the invention of the Thermionic Trigger was a direct result of Otto Schmitt's study
It is worth to remark that the invention of the Thermionic Trigger was a direct result of Otto Schmitt's study

Revision as of 11:33, 12 July 2007

Team UNIBO Cesena Campus IGEM2007

                                        Bollo UNIBO.png


Hi everybody! We are the Bologna University Team; this is our first time in iGEM and we are very excited about it!


Team Roster

Instructors Student Members Advisors
Silvio Cavalcanti Francesco Pasqualini Emanuele Giordano
Francesca Ceroni Guido Costa Marco Tartagni
Sara Montagna Alice Pasini


Project

Our project consists in a Genetic [http://en.wikipedia.org/wiki/Schmitt_trigger Schmitt Trigger]. "When the input is higher than a certain chosen threshold, the output is high; when the input is below another (lower) chosen threshold, the output is low; when the input is between the two, the output retains its value. The trigger is so named because the output retains its value until the input changes sufficiently to trigger a change. This dual threshold action is called hysteresis."

It is worth to remark that the invention of the Thermionic Trigger was a direct result of Otto Schmitt's study of nerve propagation in squid nerves: it is the perfect example of inventing an artificial method to imitate a natural process. We think it's time for Schmitt trigger to come back home in Bio.


The Beginning


Page still under construction.....