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+{

+ "metadata": {

+  "name": "",

+  "signature": "sha256:c536e76d90eae6f1eede1cdd9e694d9c8eb0678157f5d1a96e0f9e1b8f802232"

+ },

+ "nbformat": 3,

+ "nbformat_minor": 0,

+ "worksheets": [

+  {

+   "cells": [

+    {

+     "cell_type": "heading",

+     "level": 1,

+     "metadata": {},

+     "source": [

+      "Chapter 15 - Sampling, Conversion, Modulation and Multiplexing"

+     ]

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Example E1 - Pg 496"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "#Caption:Determine the errors due to Rs and Rd\n",

+      "#Ex15.1\n",

+      "Vs=1.#Source voltage(in volts)\n",

+      "Rs=100.#Source resistance(in ohm)\n",

+      "Rl=10.#Load resistance(in kilo ohm)\n",

+      "Rd=30.#Drain resistance(in ohm)\n",

+      "Vgs=10.#Gate source voltage(in volts)\n",

+      "V1=-(Vs+Vgs+1.)\n",

+      "Id=Vs/(Rs+Rd+Rl)\n",

+      "e1=(Id*Rs)*100./(Vs)\n",

+      "e2=(Id*Rd)*100./(Vs)\n",

+      "print '%s %.2f' %('Errors due to Rs(in %)=',e1)\n",

+      "print '%s %.2f' %('Errors due to Rd(in %)=',e2)\n",

+      "#Calclation error in textbook"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "Errors due to Rs(in %)= 71.43\n",

+        "Errors due to Rd(in %)= 21.43\n"

+       ]

+      }

+     ],

+     "prompt_number": 1

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Example E2 - Pg 501"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "#Caption:Determine capacitance and minimum acquisition time\n",

+      "#Ex15.2\n",

+      "Vs=1.#Supply voltage(in volts)\n",

+      "a=0.25#Accuracy(in %)\n",

+      "t=500.#Holding time(in micro sec)\n",

+      "Ib=500.#Maximum base current(in nA)\n",

+      "Rd=30.#Drain Resistance(in ohm)\n",

+      "v=Vs*0.1/100.\n",

+      "C=Ib*t*10.**(-9.)/v\n",

+      "T=7.*C*Rd\n",

+      "print '%s %.2f' %('Required capacitance(in micro farad)=',C,)\n",

+      "print '%s %.1f' %('Required acquisition time(in micro sec)=',T)"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "Required capacitance(in micro farad)= 0.25\n",

+        "Required acquisition time(in micro sec)= 52.5\n"

+       ]

+      }

+     ],

+     "prompt_number": 2

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Example E3 - Pg 502"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "#Caption:Determine the error due to capacitance\n",

+      "#Ex15.3\n",

+      "Vgs=10.#Gate source voltage(in volts)\n",

+      "C=10.5#Capacitance(in pF)\n",

+      "Vs=1.#Supply voltage(in volts)\n",

+      "C1=0.25#Capacitance(in micro farad)\n",

+      "V1=-(Vs+Vgs+1.)\n",

+      "Vgsm=Vs-(V1)\n",

+      "Q=C*Vgsm\n",

+      "Vo=Q/C1\n",

+      "e=Vo*10.**(-6.)*100./Vs\n",

+      "print '%s %.2f' %('Error due to capacitance(in %)=',e)"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "Error due to capacitance(in %)= 0.05\n"

+       ]

+      }

+     ],

+     "prompt_number": 3

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Example E4 - Pg 505"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "#caption:Calculate the output voltage\n",

+      "#Ex15.4\n",

+      "Vie=1.#Input voltage for resistor Re(in volts)\n",

+      "Vid=0#Input voltage for resistor Rd(in volts)\n",

+      "Vic=1.#Input voltage for resistor Rc(in volts)\n",

+      "Vib=1.#Input voltag for resistor Rb(in volts)\n",

+      "Via=0#Input voltage for resistor Ra(in volts)\n",

+      "R=16.#Input Resistor(in kilo ohm)\n",

+      "re=1.#Resistor(in kilo ohm)\n",

+      "rd=2.#Resistor(in kilo ohm)\n",

+      "rc=4.#Resistor(in kilo ohm)\n",

+      "rb=8.#Resistor(in kilo ohm)\n",

+      "ra=16.#Resistor(in kilo ohm)\n",

+      "Vo=R*((Vie/re)+(Vid/rd)+(Vic/rc)+(Vib/rb)+(Via/ra))\n",

+      "print '%s %.f' %('Output voltage(in volts)=',Vo)"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "Output voltage(in volts)= 22\n"

+       ]

+      }

+     ],

+     "prompt_number": 4

+    }

+   ],

+   "metadata": {}

+  }

+ ]

+}
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