ECE 606 Solid State Devices - F2020

ECE 606 Solid State Devices - F2020

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ECE 606 Solid State Devices L17.2: Transport - Mobility

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ECE 606 Solid State Devices L17.2: Transport - Mobility

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ECE 606 Solid State Devices - F2020

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  1. 1 ECE 606 Solid State Devices L1.1: Solid State Devices
  2. 2 ECE 606 Solid State Devices L1.2: Basic Device Operations – Raising 1,000 Questions
  3. 3 ECE 606 Solid State Devices L1.3: Course Content and Requirements
  4. 4 ECE 606 Solid State Devices L2.1: Materials - Typical Semiconducting Materials
  5. 5 ECE 606 Solid State Devices L2.2: Materials - Typical Applications Elemental/Compound Semiconductors
  6. 6 ECE 606 Solid State Devices L2.3: Materials - Atomic Positions and Bond Orientations
  7. 7 ECE 606 Solid State Devices L3.1: Crystals - Crystal Definitions
  8. 8 ECE 606 Solid State Devices L3.2: Crystals - Tables of Bravais Lattice
  9. 9 ECE 606 Solid State Devices L3.3: Crystals - Density of Definitions/Applications to Common Material
  10. 10 ECE 606 Solid State Devices L3.4: Crystals - Surfaces, Miller Index
  11. 11 ECE 606 Solid State Devices L4.1: Quantum Mechanics - Classic Systems
  12. 12 ECE 606 Solid State Devices L4.2: Quantum Mechanics - The Advent of Quantum Mechanics
  13. 13 ECE 606 Solid State Devices L4.3: Quantum Mechanics - Why Do We Need Quantum Mechanics?
  14. 14 ECE 606 Solid State Devices L4.4: Quantum Mechanics - Formulation of Schrödinger's Equation
  15. 15 ECE 606 Solid State Devices L5.1: Analytical Solutions - Free and Tightly Bound Electrons
  16. 16 ECE 606 Solid State Devices L5.2: Analytical Solutions - Electrons in a Finite Potential Well
  17. 17 ECE 606 Solid State Devices L6.1: Electron Tunneling - Transfer Matrix Method
  18. 18 ECE 606 Solid State Devices L6.2: Electron Tunneling - Tunneling Through a Single Barrier
  19. 19 ECE 606 Solid State Devices L6.3: Electron Tunneling - Tunneling Through a Double Barrier Structure
  20. 20 ECE 606 Solid State Devices L6.4: Electron Tunneling - Tunneling Through N Barriers - Bandstructure
  21. 21 ECE 606 Solid State Devices L6.5: Electron Tunneling - Analytical and Numerical Solution Strategies
  22. 22 ECE 606 Solid State Devices L7.1: Bandstructure - Problem Formulation
  23. 23 ECE 606 Solid State Devices L7.2: Bandstructure - Solutions
  24. 24 ECE 606 Solid State Devices L7.3: Bandstructure - Band Properties
  25. 25 ECE 606 Solid State Devices L8.1: Brillouin Zone and Reciprocal Lattice - 1D Problems
  26. 26 ECE 606 Solid State Devices L8.2: Brillouin Zone and Reciprocal Lattice - 2D Problems
  27. 27 ECE 606 Solid State Devices L8.3: Brillouin Zone and Reciprocal Lattice - 3D Problems
  28. 28 ECE 606 Solid State Devices L9.1: Constant Energy Surfaces
  29. 29 ECE 606 Solid State Devices L9.2: Density of States
  30. 30 ECE 606 Solid State Devices L10.1: Bandstructure - E(k) Diagrams in Specific Crystal Directions
  31. 31 ECE 606 Solid State Devices L10.2: Bandstructure - Constant Energy Surfaces - Effective Mass Tensor
  32. 32 ECE 606 Solid State Devices L10.3: Bandstructure - Density of States Effective Mass
  33. 33 ECE 606 Solid State Devices L11.1: Bandstructure Measurements
  34. 34 ECE 606 Solid State Devices L11.2: Effective Mass Measurements
  35. 35 ECE 606 Solid State Devices L12.1: Occupation of States - Rules of Filling Electronic States
  36. 36 ECE 606 Solid State Devices L12.2: Occupation of States - Derivation of Fermi-Dirac Statistics
  37. 37 ECE 606 Solid State Devices L12.3: Occupation of States - Intrinsic Carrier Concentration
  38. 38 ECE 606 Solid State Devices L13: Band Diagrams
  39. 39 ECE 606 Solid State Devices L14.1: Doping - Basic Concepts of Donors and Acceptors
  40. 40 ECE 606 Solid State Devices L14.2: Doping - Statistics of Donor and Acceptor Levels
  41. 41 ECE 606 Solid State Devices L14.3: Temperature Dependence of Carrier Concentration
  42. 42 ECE 606 Solid State Devices L14.4: Multiple Doping, Co-Doping, And Heavy-Doping
  43. 43 ECE 606 Solid State Devices L15.1: Non-Equilibrium - Steady State, Transient, Equilibrium
  44. 44 ECE 606 Solid State Devices L15.2: Non-Equilibrium - Recombination & Generation Overview
  45. 45 ECE 606 Solid State Devices L16.1: Recombination & Generation - Motivation of R-G Formula
  46. 46 ECE 606 Solid State Devices L16.2.1: SRH Formula - Trap Assisted Recombination Rates
  47. 47 ECE 606 Solid State Devices L16.2.2: SRH Formula - Capture and Emission Relationship (n1 and p1)
  48. 48 ECE 606 Solid State Devices L16.2.3: SRH Formula - Steady State Trap Population
  49. 49 ECE 606 Solid State Devices L16.2.4: SRH Formula - Recombination-Generation Rate
  50. 50 ECE 606 Solid State Devices L16.3: Applications of SRH Formula for Special Cases
  51. 51 ECE 606 Solid State Devices L16.4: Recombination & Generation - Direct and Auger Recombination
  52. 52 ECE 606 Solid State Devices L16.5: Recombination & Generation - Nature of Interface States
  53. 53 ECE 606 Solid State Devices L16.6: SRH Formula Adapted to Interface States
  54. 54 ECE 606 Solid State Devices L16.7: Surface Recombination in Depletion Region
  55. 55 ECE 606 Solid State Devices L17.1: Transport - Drift Current
  56. 56 ECE 606 Solid State Devices L17.2: Transport - Mobility
  57. 57 ECE 606 Solid State Devices L17.3: Transport - Carrier Concentration from Hall Effect
  58. 58 ECE 606 Solid State Devices L17.4: Transport - Physics of Diffusion - Einstein Relationship
  59. 59 ECE 606 Solid State Devices L18.1: Semiconductor Equations - Continuity Equations
  60. 60 ECE 606 Solid State Devices L18.2: Semiconductor Equations - Analytical Solutions
  61. 61 ECE 606 Solid State Devices L18.3: Semiconductor Equations - Numerical Solutions
  62. 62 ECE 606 Solid State Devices L19.1: PN Junctions - Structure and Depletion Region
  63. 63 ECE 606 Solid State Devices L19.2: PN Junctions - Drawing Band-Diagrams in Equilibrium
  64. 64 ECE 606 Solid State Devices L20.1: PN Diode I-V Characteristics - Band Diagram with Applied Bias
  65. 65 ECE 606 Solid State Devices L20.2: PN Diode I-V Characteristics - Derivation of Forward Bias Formula
  66. 66 ECE 606 Solid State Devices L20.3: PN Diode I-V Characteristics - Forward Bias - Non-Linear Regime
  67. 67 ECE 606 Solid State Devices L20.4: PN Diode I-V Characteristics - Non-Ideal Effects
  68. 68 ECE 606 Solid State Devices L21.1: PN Diode AC Response - Conductance and Series Resistance
  69. 69 ECE 606 Solid State Devices L21.2: PN Diode AC Response - Majority Carrier Junction Capacitance
  70. 70 ECE 606 Solid State Devices L21.3: PN Diode AC Response - Minority Carrier Diffusion Capacitance
  71. 71 ECE 606 Solid State Devices L22.1: PN Diode Large Signal Response - Charge Control Model
  72. 72 ECE 606 Solid State Devices L22.2: PN Diode Large Signal Response - Turn-Off/Turn-On Characteristics
  73. 73 ECE 606 Solid State Devices L22.3: PN Diode Large Signal Response - Steady-State Expression
  74. 74 ECE 606 Solid State Devices L23.1: Schottky Diode - Basics
  75. 75 ECE 606 Solid State Devices L23.2: Schottky Diode - Physical Processes
  76. 76 ECE 606 Solid State Devices L23.3: Schottky Diode - Practical Issues
  77. 77 ECE 606 Solid State Devices L24.1: Bipolar Junction Transistor - Introduction
  78. 78 ECE 606 Solid State Devices L24.2: Bipolar Junction Transistor - Band Diagram in Equilibrium
  79. 79 ECE 606 Solid State Devices L24.3: Bipolar Junction Transistor - Currents in BJTs
  80. 80 ECE 606 Solid State Devices L24.4: Bipolar Junction Transistor - Ebers Moll Model
  81. 81 ECE 606 Solid State Devices L25.1: Bipolar Junction Transistor - Current Gain in BJTs
  82. 82 ECE 606 Solid State Devices L25.2: Bipolar Junction Transistor - Base Doping Design
  83. 83 ECE 606 Solid State Devices L25.3: Bipolar Junction Transistor - Collector Doping Design
  84. 84 ECE 606 Solid State Devices L25.4: Bipolar Junction Transistor - Emitter Doping Design
  85. 85 ECE 606 Solid State Devices L25.5: Bipolar Junction Transistor - Poly-Si Emitter Design
  86. 86 ECE 606 Solid State Devices L25.6: Bipolar Junction Transistor - Short Base Transport
  87. 87 ECE 606 Solid State Devices L26: Bipolar Junction Transistor - High Frequency Response
  88. 88 ECE 606 Solid State Devices L27.1: Heterojunction Bipolar Transistor - Applications, Concept, etc.
  89. 89 ECE 606 Solid State Devices L27.2: Heterojunction Bipolar Transistor - Equilibrium Solution
  90. 90 ECE 606 Solid State Devices L27.3: Heterojunction Bipolar Transistor - Types of Heterojunctions
  91. 91 ECE 606 Solid State Devices L27.4: Heterojunction Bipolar Transistor - Abrupt Junction HBTs
  92. 92 ECE 606 Solid State Devices L27.5: Heterojunction Bipolar Transistor - Graded Junction HBTs
  93. 93 ECE 606 Solid State Devices L27.6: Heterojunction Bipolar Transistor - Graded Base HBTs
  94. 94 ECE 606 Solid State Devices L27.7: Heterojunction Bipolar Transistor - Double Heterojunction HBTs
  95. 95 ECE 606 Solid State Devices L27.8: Heterojunction Bipolar Transistor - Modern Designs
  96. 96 ECE 606 Solid State Devices L28.1: MOS Electrostatics and MOScap - Background
  97. 97 ECE 606 Solid State Devices L28.2: MOScap - Band Diagram in Equilibrium and with Bias → MOS cap
  98. 98 ECE 606 Solid State Devices L28.3: MOScap - Qualitative Q-V Characteristics of MOS Capacitor
  99. 99 ECE 606 Solid State Devices L28.4: MOScap - MOScap Induced Charges in Depletion and Inversion
  100. 100 ECE 606 Solid State Devices L28.5: MOScap - MOScap Exact Solution of the Electrostatic Problem
  101. 101 ECE 606 Solid State Devices L29.1: MOS Capacitor Signal Response - Introduction/Background
  102. 102 ECE 606 Solid State Devices L29.2: MOS Capacitor Signal Response - Small Signal Response
  103. 103 ECE 606 Solid State Devices L29.3: MOS Capacitor Signal Response - Large Signal Response
  104. 104 ECE 606 Solid State Devices L30.1: MOSFET Introduction - Sub-Threshold (Depletion) Current
  105. 105 ECE 606 Solid State Devices L30.2: MOSFET Introduction - Above-Threshold, Inversion Current
  106. 106 ECE 606 Solid State Devices L30.3: MOSFET Introduction - Velocity Saturation in Simplified Theory
  107. 107 ECE 606 Solid State Devices L30.4: MOSFET Introduction - Bulk Charge Theory & Small Transistors
  108. 108 ECE 606 Solid State Devices L31.1: MOSFET Non-Idealities - Flat Band Voltage
  109. 109 ECE 606 Solid State Devices L31.2: MOSFET Non-Idealities - Threshold Voltage Shift & Trapped Charges
  110. 110 ECE 606 Solid State Devices L31.3: MOSFET Non-Idealities - Physics of Interface Traps
  111. 111 ECE 606 Solid State Devices L32.1: Modern MOSFET - Some of Moore's Law Challenges
  112. 112 ECE 606 Solid State Devices L32.2: Modern MOSFET - Short Channel Effect
  113. 113 ECE 606 Solid State Devices L32.3: Modern MOSFET - Control of Threshold Voltage
  114. 114 ECE 606 Solid State Devices L32.4: Modern MOSFET - Mobility Enhancement
  115. 115 ECE 606 Solid State Devices: Course Trailer

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