A community for students.
Here's the question you clicked on:
← 55 members online
 0 viewing
axi
 2 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 \(V_{OH}\)?
axi
 2 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 \(V_{OH}\)?

This Question is Closed

jeisson6
 2 years ago
Best ResponseYou've already chosen the best response.0The answer is t=(RON+RPU)*CGS*IN(1(VOHVOL)/(VsVOL))
Ask your own question
Sign UpFind more explanations on OpenStudy
Your question is ready. Sign up for free to start getting answers.
spraguer
(Moderator)
5
→ View Detailed Profile
is replying to Can someone tell me what button the professor is hitting...
23
 Teamwork 19 Teammate
 Problem Solving 19 Hero
 Engagement 19 Mad Hatter
 You have blocked this person.
 ✔ You're a fan Checking fan status...
Thanks for being so helpful in mathematics. If you are getting quality help, make sure you spread the word about OpenStudy.