0 of 5 Questions completed
Questions:
You have already completed the quiz before. Hence you can not start it again.
Quiz is loading...
You must sign in or sign up to start the quiz.
You must first complete the following:
0 of 5 Questions answered correctly
Your time:
Time has elapsed
You have reached 0 of 0 point(s), (0)
Earned Point(s): 0 of 0, (0)
0 Essay(s) Pending (Possible Point(s): 0)
Unfortunately, you did not pass the quiz.
Don't be discouraged - Go through the course material including the lecture videos, handout slides, and simulation examples to prepare and try again.
Congratulations, you have passed the quiz!
You still have room for improvement - Review the slides and simulation examples again to identify the concepts that you may have missed.
Congratulations, you have passed the quiz!
You scored better than average, but if you are still unsure about a particular topic, try starting a discussion on the Ansys Learning Forum to discuss your questions with peers around the world.
Congratulations, you have passed the quiz!
You did great - Check out other courses to further your knowledge. Also, visit the Ansys Learning Forum and participate in discussions on this subject to help your peers and deepen your own knowledge.
Congratulations you have passed the quiz!
You have excelled on this topic - Check out other courses and see if you can ace them too. Also, visit the Ansys Learning Forum to help your peers on this topic. With your knowledge, you can make a real difference.
When running a 2D simulation, ‘norm length’ parameter in CHARGE solver settings will determine the device’s length in the third dimension.
When performing a simulation in CHARGE, what is the recommended first step in the workflow?
Which of the following materials can have their band structure reported by the CHARGE solver?
Which of the following steps are done before running the simulation for diagnostic purposes (to ensure correct simulation setup)?
We know that in reverse bias, the potential barrier (difference between energy levels (e.g. Ec) of the p- and n-side of the junction) will increase, preventing the current flow across the junction. Download the simulation file and pply a 1 V reverse bias to the junction. What is the amount of potential barrier in electron volts across the junction at 1V reverse bias? (Hint: Use the band structure monitor to view the band structure.)
Type in your answer with two decimal points accuracy. For example, if the answer is 2.369, type in 2.37