05:41 Ec is shown below Ef for source and drain regions ( blue line below red ). Is this an error as this can only happen for highly doped regions I suppose? Again in next slide it is corrected as Ec is shown above Ef ( dotted black line above red line)
00:00 Lecture 2.2: Energy Band View of the MOSFET 00:41 Understanding MOSFETs 01:00 Normal to the channel 01:26 Along the channel 01:58 Equilibrium E-band diagram 02:53 Three separate semiconductors 03:39 Putting the three pieces together 03:58 Final result 04:48 Equilibrium energy band diagram 04:58 N-channel MOSFET: only electrons 05:33 The transistor as a barrier controlled device 06:20 Examine effect of gate voltage first 07:16 Now add a small drain voltage 08:34 Now increase the drain voltage 09:44 Now remove the gate voltage 10:41 How transistors work 12:29 DIBL 12:45 Understanding DIBL with an e-band diagram 14:04 2D energy band diagrams 14:22 2D energy band diagram on n-MOSFET 15:00 Essential physics of a transistor 15:18 Limits to barrier control: quantum tunneling 17:27 Summary 18:09 Peek at next topic
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05:41 Ec is shown below Ef for source and drain regions ( blue line below red ). Is this an error as this can only happen for highly doped regions I suppose? Again in next slide it is corrected as Ec is shown above Ef ( dotted black line above red line)
I was wondering the same, but doubt we will have a response : (
Excellent explanation. Thank you so much, professor!!
excellent lecture and easy to understand. thank you, sir
00:00 Lecture 2.2: Energy Band View of the MOSFET
00:41 Understanding MOSFETs
01:00 Normal to the channel
01:26 Along the channel
01:58 Equilibrium E-band diagram
02:53 Three separate semiconductors
03:39 Putting the three pieces together
03:58 Final result
04:48 Equilibrium energy band diagram
04:58 N-channel MOSFET: only electrons
05:33 The transistor as a barrier controlled device
06:20 Examine effect of gate voltage first
07:16 Now add a small drain voltage
08:34 Now increase the drain voltage
09:44 Now remove the gate voltage
10:41 How transistors work
12:29 DIBL
12:45 Understanding DIBL with an e-band diagram
14:04 2D energy band diagrams
14:22 2D energy band diagram on n-MOSFET
15:00 Essential physics of a transistor
15:18 Limits to barrier control: quantum tunneling
17:27 Summary
18:09 Peek at next topic
Thank you for a perfect lecture
great lecture!! Thank you!
very nice
教得很好懂