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anonymous
 3 years ago
The drain of \(Q_1\) is still high and the gate of \(Q_2\) is at \(V_{OL}\). A STORE pulse comes in and turns on \(Q_3\). How long must the STORE pulse be on, in picoseconds, to charge the gate capacitance of \(Q_2\) to \(V_{OH}\)?
anonymous
 3 years ago
The drain of \(Q_1\) is still high and the gate of \(Q_2\) is at \(V_{OL}\). A STORE pulse comes in and turns on \(Q_3\). How long must the STORE pulse be on, in picoseconds, to charge the gate capacitance of \(Q_2\) to \(V_{OH}\)?

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anonymous
 3 years ago
Best ResponseYou've already chosen the best response.0The answer is t=(RON+RPU)*CGS*IN(1(VOHVOL)/(VsVOL))
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