filmov
tv
ECE Purdue Semiconductor Fundamentals L4.1: Recombination & Generation - Landauer Approach
Показать описание
This course provides the essential foundations required to understand the operation of semiconductor devices such as transistors, diodes, solar cells, light-emitting devices, and more. The material will primarily appeal to electrical engineering students whose interests are in applications of semiconductor devices in circuits and systems. The treatment is physical and intuitive, and not heavily mathematical.
Technology users will gain an understanding of the semiconductor physics that is the basis for devices. Semiconductor technology developers may find it a useful starting point for diving deeper into condensed matter physics, statistical mechanics, thermodynamics, and materials science. The course presents an electrical engineering perspective on semiconductors, but those in other fields may find it a useful introduction to the approach that has guided the development of semiconductor technology for the past 50+ years.
0:20:25
ECE Purdue Semiconductor Fundamentals L4.1: Recombination & Generation - Landauer Approach
0:27:30
CE Purdue Semiconductor Fundamentals L4.1: Carrier Transport - Landauer Approach
0:16:39
ECE Purdue Transistor Fundamentals L4.1: Transmission Theory of the MOSFET - The Landauer Approach
0:09:55
ECE Purdue Semiconductor Fundamentals: How to Take this Course
0:18:09
ECE Purdue Semiconductor Fundamentals L4.5: Recombination and Generation - Carrier Generation
0:19:15
ECE Purdue Semiconductor Fundamentals L4.6: Recombination and Generation - Recap
0:10:14
ECE Purdue Semiconductor Fundamentals L1.4: Materials Properties - Common Semiconductors
0:23:14
ECE Purdue Semiconductor Fundamentals L5.1: Semiconductor Equations - Mathematical Formulation
0:25:23
ECE Purdue Semiconductor Fundamentals L4.4: Recombination and Generation - Carrier Recombination
0:15:12
ECE Purdue Semiconductor Fundamentals L3.5: Equilibrium Carrier Concentration - Temperature
0:26:16
ECE Purdue Semiconductor Fundamentals L4.3: Recombination and Generation - Drift-Diffusion Equation
0:15:31
ECE Purdue Semiconductor Fundamentals L1.7: Materials Properties - Recap
0:35:31
ECE Purdue Semiconductor Fundamentals L5.4: Semiconductor Equations - Minority Carrier Diffusion
0:13:32
ECE Purdue Semiconductor Fundamentals L1.3: Materials Properties - Miller Indices
0:22:34
ECE Purdue Semiconductor Fundamentals L4.2: Recombination and Generation - Nanoscale to Macroscale
0:33:00
ECE Purdue Semiconductor Fundamentals L4.6: Carrier Transport - Recap
0:13:59
ECE Purdue Semiconductor Fundamentals L3.1: Equilibrium Carrier Concentration - Fermi Function
0:10:22
ECE Purdue Semiconductor Fundamentals L5.5: Semiconductor Equations - Recap
0:13:14
ECE Purdue Semiconductor Fundamentals L1.5: Materials Properties - Free Carriers in Semiconductor
0:22:51
ECE Purdue Semiconductor Fundamentals L1.6: Materials Properties - Doping
0:23:17
ECE Purdue Semiconductor Fundamentals L5.2: Semiconductor Equations - Energy Band Diagrams
0:25:58
ECE Purdue Semiconductor Fundamentals L4.2a: Carrier Transport - Drift Current
0:25:09
ECE Purdue Semiconductor Fundamentals L1.7: Materials Properties - Recap
0:15:55
ECE Purdue Semiconductor Fundamentals L5.3: Semiconductor Equations - Quasi Fermi-Levels
Комментарии