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+{

+ "metadata": {

+  "name": "",

+  "signature": "sha256:b8970a094fad8a547d8c45269d1db3cecaf14dd1d49918ae7c469ae888e5ccd7"

+ },

+ "nbformat": 3,

+ "nbformat_minor": 0,

+ "worksheets": [

+  {

+   "cells": [

+    {

+     "cell_type": "heading",

+     "level": 1,

+     "metadata": {},

+     "source": [

+      "Chapter 07 - OPTOELECTRONIC DEVICES "

+     ]

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Example E01 - Pg 352"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "# Exa 7.1 - 352\n",

+      "# Given data\n",

+      "O_V = 5.;# output voltage in V\n",

+      "V_D = 1.5;#voltage drop in V\n",

+      "R = (O_V - V_D)/O_V;\n",

+      "R = R * 10.**3.;# in ohm\n",

+      "print '%s %.2f' %(\"The resistance value in ohm is\",R);\n",

+      "print '%s' %(\"As this is not standard value, use R=680 ohm which is a standard value\")\n"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "The resistance value in ohm is 700.00\n",

+        "As this is not standard value, use R=680 ohm which is a standard value\n"

+       ]

+      }

+     ],

+     "prompt_number": 1

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Example E02 - Pg 376"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "# Exa 7.2 - 376\n",

+      "# Given data\n",

+      "import math \n",

+      "N_A = 7.5*10.**24.;# in atoms/m**3\n",

+      "N_D = 1.5*10.**22.;# in atoms/m**3\n",

+      "D_e = 25.*10.**-4.;# in m**2/s\n",

+      "D_h = 1.*10.**-3.;# in m**2/s\n",

+      "Torque_eo = 500.;# in ns\n",

+      "Torque_ho = 100.;# in ns\n",

+      "n_i = 1.5*10.**16.;# in /m**3\n",

+      "e = 1.6*10.**-19.;# in C\n",

+      "P_C = 12.5;# in mA/cm**2\n",

+      "# Electron diffusion length\n",

+      "L_e = math.sqrt(D_e*Torque_ho*10.**-9.);# in m\n",

+      "L_e = L_e * 10.**6.;# in um\n",

+      "# hole diffusion length\n",

+      "L_h = math.sqrt(D_h*Torque_ho*10.**-9.);# in m\n",

+      "L_h = L_h * 10.**6.;# in um\n",

+      "# The value of J_s can be calculated as,\n",

+      "J_s = e*((n_i)**2.)*( (D_e/(L_e*10.**-6.*N_A)) + (D_h/(L_h*10.**-6.*N_D)) );# in A/m**2\n",

+      "J_s = J_s * 10.**3.;# in A/cm**2\n",

+      "V_T = 26.;# in mV\n",

+      "I_lembda = 12.5*10.**-3.;\n",

+      "I_s = 2.4*10.**-4.;\n",

+      "# Open circuit voltage \n",

+      "V_OC = V_T*math.log( 1.+(I_lembda/J_s) );# in mV\n",

+      "V_OC = V_OC * 10.**-3.;# in V\n",

+      "print '%s %.3f' %(\"Open circuit voltage in V is\",V_OC);\n",

+      "\n",

+      "# Note: There is calculation error to evaluate the value of VOC since 26*10**-3*log(1+12.5*10**-3/2.4*10**-4) calculated as 0.10318 not 0.522 V\n"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "Open circuit voltage in V is 0.103\n"

+       ]

+      }

+     ],

+     "prompt_number": 2

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Example E03 - Pg 376"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "# Exa 7.3 - 376\n",

+      "# Given data\n",

+      "import math \n",

+      "Phi_o = 1.*10.**21.;# in m**-2s**-1\n",

+      "Alpha = 1.*10.**5.;# in m**-1\n",

+      "W = 25.;# in um\n",

+      "W =W * 10.**-6.;# in m\n",

+      "e = 1.6*10.**-19.;# in C\n",

+      "# At the front edge of intrinsic region, the generation rate of EHP\n",

+      "G_L1 = Alpha*Phi_o;# in m**-3s**-1\n",

+      "# At the back edge of intrinsic region, the generation rate of EHP\n",

+      "G_L2 = Alpha*Phi_o*math.e**( (-Alpha*W) );# in m**-3s**-1\n",

+      "# Photo current density,\n",

+      "J_L = e*Phi_o*(1-math.e**(-Alpha*W));# in A/m**2\n",

+      "J_L = J_L * 10.**-1.;# in mA/cm**2\n",

+      "print '%s %.2f' %(\"Photo current density in mA/cm**2 is\",J_L);\n"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "Photo current density in mA/cm**2 is 14.69\n"

+       ]

+      }

+     ],

+     "prompt_number": 3

+    }

+   ],

+   "metadata": {}

+  }

+ ]

+}
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