Added(A)/Deleted(D) following books

 A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter10_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter11_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter12_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter13_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter1_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter2_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter3_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter4_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter5_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter6_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter7_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter8_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/chapter9_1.ipynb
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/screenshots/Frequency_1.png
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/screenshots/Saturation_1.png
A  Design_With_Operational_Amplifiers_And_Analog_Integrated_Circuits_by_Sergio_Franco/screenshots/Step_1.png
A  Electronic_Devices_by_S._Sharma/README.txt
A  Manufacturing_Science_by_A._Ghosh_And_A._K._Mallik/README.txt
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter10_2.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter1_2.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter2_2.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter3_2.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter4_2.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter5_2.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter6_2.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter7_2.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter8_2.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/Chapter9_2.ipynb
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/screenshots/CHAPTER9_1.png
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/screenshots/Fig_1.24_2.png
A  Optoelectronics:_An_Introduction_by_John_Wilson_&_John_Hawkes/screenshots/Fig_8.26_2.png
A  "sample_notebooks/KAVANA B/chapter3.ipynb"
A  sample_notebooks/RohitPhadtare/chapter_no.6.ipynb
A  "sample_notebooks/S PRASHANTHS PRASHANTH/Chapter_1_4.ipynb"

1 files changed, 593 insertions, 0 deletions

diff --git a/sample_notebooks/S PRASHANTHS PRASHANTH/Chapter_1_4.ipynb b/sample_notebooks/S PRASHANTHS PRASHANTH/Chapter_1_4.ipynb
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@@ -0,0 +1,593 @@
+{

+ "cells": [

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "# Chapter 1: Circuit Configuration for Linear Integrated Ciruits"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 1 Page No:1.81"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 4,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "adm= -1482.0\n",

+      "acm= -1.0\n",

+      "cmrr= 76.4838188131 db\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "rc=50000;#ohm\n",

+    "re=100000;#ohm\n",

+    "rs=10000;#ohm\n",

+    "rp=50000;#ohm\n",

+    "beta0=2000;\n",

+    "r0=400000;#ohm\n",

+    "\n",

+    "\n",

+    "\n",

+    "#determine adm,acm,cmrr\n",

+    "#calculation\n",

+    "rc1=(rc*r0)/(rc+r0);\n",

+    "adm=(-(beta0*rc1)/(rs+rp))#differential mode gain\n",

+    "acm=(-(beta0*rc1)/(rs+rp+2*re*(beta0+1)))#common mode gain\n",

+    "import math\n",

+    "cmrr=20*(math.log10((1+((2*re*(beta0+1))/(rs+rp)))))#common mode rejection ratio\n",

+    "\n",

+    "#result\n",

+    "print 'adm=',round(adm,3);\n",

+    "print 'acm=',round(acm,3);\n",

+    "print 'cmrr=',cmrr,'db'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 2 Page No:1.83"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 5,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "maximum peak amplitude at 100khz 3.185 V\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "sr=0.000001;#volt/sec\n",

+    "freq=100000;\n",

+    "vsat=12;\n",

+    "baw=100000;\n",

+    "#determine vx\n",

+    "\n",

+    "#calculation\n",

+    "vx=2*(1/(sr*2*3.14*freq))\n",

+    "\n",

+    "#result\n",

+    "print 'maximum peak amplitude at 100khz',round(vx,3),'V'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 3 Page No: 1.84"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 6,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "slew rate= 5 volt/μsec\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "V=20;\n",

+    "t=4;\n",

+    "#determine slew rate\n",

+    "#calculation\n",

+    "w=V/t\n",

+    "#result\n",

+    "print'slew rate=',w,'volt/μsec'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 4 Page No: 1.84"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 7,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "max frequency of input is  79617.8343949 hz\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "a=50;\n",

+    "vi=20e-3;\n",

+    "sr=0.5e6;\n",

+    "#determine max frequency\n",

+    "#calculation\n",

+    "vm=a*vi;\n",

+    "freq=sr/(2*3.14*vm)\n",

+    "#result\n",

+    "print 'max frequency of input is ',freq,'hz'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 5 Page No: 1.84"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 8,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "max peak to peak input signal  0.398089171975 V\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "sr=0.5e6;\n",

+    "freq=40e3;\n",

+    "a=10;\n",

+    "#determine max peak to peak input signal\n",

+    "#calculation\n",

+    "vm=sr/(2*3.14*freq);\n",

+    "vm=2*vm;\n",

+    "v1=vm/a\n",

+    "#result\n",

+    "print'max peak to peak input signal ',v1,'V'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {

+    "collapsed": true

+   },

+   "source": [

+    "## Example 6 Page No: 1.85"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 9,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "noise  0.0063247 V\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "adm=400;\n",

+    "cmrr=50;\n",

+    "vin1=50e-3;\n",

+    "vin2=60e-3;\n",

+    "vnoise=5e-3;\n",

+    "#calculation\n",

+    "v0=(vin2-vin1)*adm;\n",

+    "acm=adm/316.22;\n",

+    "v1=vnoise*acm\n",

+    "print'noise ',round(v1,7),'V'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 7 Page No: 1.86"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 10,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "time to change from 0 t0 15  4e-07 sec\n",

+      "slew rate 1.5 volt/μsec\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "sr=35e6;#volt/sec\n",

+    "vsat=15;#volt\n",

+    "#determine time to change from 0 to 15V\n",

+    "#calculation\n",

+    "c=100e-12;#farad\n",

+    "i=150e-6;#A\n",

+    "w=vsat/sr\n",

+    "w1=i/c;\n",

+    "#result\n",

+    "print'time to change from 0 t0 15 ',round(w,7),'sec'\n",

+    "print'slew rate',w1/1000000,'volt/μsec'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 8 Page No: 1.86"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 11,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "bandwidth  21231.4225053 hz\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "sr=2e6;#v/sec\n",

+    "vsat=15;#volt\n",

+    "#determine bandwidth \n",

+    "#calculation\n",

+    "\n",

+    "bw=sr/(2*3.14*vsat)\n",

+    "#result\n",

+    "print'bandwidth ',bw,'hz'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 9 Page No: 1.87"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 12,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "output offset  3.0 V\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "iin=30e-9;#A\n",

+    "a=1e5;\n",

+    "rin=1000;#ohm\n",

+    "#determine output offset voltage\n",

+    "#calculation\n",

+    "vid=iin*rin;\n",

+    "v0=a*vid\n",

+    "#result\n",

+    "print'output offset ',v0,'V'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 10 Page No: 1.86"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 13,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "input offset current  4e-06 A\n",

+      "input base current  2.4e-05 A\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "inb1=22e-6;#A\n",

+    "inb2=26e-6;#A\n",

+    "#determine input offset current input base current\n",

+    "#calculation\n",

+    "i1=inb2-inb1\n",

+    "i2=(inb2+inb1)/2\n",

+    "#result\n",

+    "print'input offset current ',i1,'A'\n",

+    "print'input base current ',i2,'A'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "##Example 11 Page No: 1.86"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 14,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "input base current  8e-08 A\n",

+      "input offset current  2e-08 A\n",

+      "input offset   2.0 V\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "inb2=90e-9;#A\n",

+    "inb1=70e-9;#A\n",

+    "a=1e5;\n",

+    "#determine input offset current\n",

+    "#calculation\n",

+    "i1=(inb2+inb1)/2\n",

+    "i2=inb2-inb1\n",

+    "v1=((inb2-inb1)*1000)*a\n",

+    "print'input base current ',i1,'A'\n",

+    "print'input offset current ',i2,'A'\n",

+    "print'input offset  ',v1,'V'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 12 Page No: 1.87"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 15,

+   "metadata": {

+    "collapsed": false,

+    "scrolled": true

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "output voltage cmrr  100      0.051 V\n",

+      "output voltage cmrr  200      0.051 V\n",

+      "output voltage cmrr  450      0.05 V\n",

+      "output voltage cmrr  105      0.051 V\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "vin1=150e-6;#volt\n",

+    "vin2=100e-6;#volt\n",

+    "a=1000;\n",

+    "from array import *\n",

+    "cmrr=array('i',[100,200,450,105])\n",

+    "#determine output voltage\n",

+    "#calculation\n",

+    "vc=(vin1+vin2)/2;\n",

+    "vd=(vin1-vin2);\n",

+    "j=0;\n",

+    "while j<=3 :v0=(a*vd*(1+(vc/(cmrr[j]*vd)))) ;print 'output voltage cmrr ',cmrr[j],'    ',round(v0,3),'V';j=j+1;\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 13 Page No: 1.87"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 16,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "output voltage  0.003 V\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "rin=100e3;#ohm\n",

+    "rf1=900e3;#ohm\n",

+    "vc=1;#volt\n",

+    "cmrr=70;\n",

+    "#determine the output voltage\n",

+    "#calculation\n",

+    "v0=(1+(rf1/rin))*vc/3160\n",

+    "print 'output voltage ',round(v0,3),'V'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 14 Page No: 1.89"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 2,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "input voltage  0.08 V\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "sr=0.5e6;#volt/sec\n",

+    "a=50;\n",

+    "freq=20e3;#hz\n",

+    "#determine max peak to peak voltage\n",

+    "#calculation\n",

+    "v1=sr/(2*3.14*freq*a)\n",

+    "print'input voltage ',round(v1,3),'V'\n"

+   ]

+  },

+  {

+   "cell_type": "markdown",

+   "metadata": {},

+   "source": [

+    "## Example 15 Page No: 1.90"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": 4,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [

+    {

+     "name": "stdout",

+     "output_type": "stream",

+     "text": [

+      "max frequency  26.539 Khz\n"

+     ]

+    }

+   ],

+   "source": [

+    "#given\n",

+    "sr=50e6;#volt/sec\n",

+    "rin=2;\n",

+    "vimax=10;\n",

+    "#determine max frequency\n",

+    "#calculation\n",

+    "vm=vimax*(1+rin);\n",

+    "freq=sr/(2*3.14*vm)/10e3;\n",

+    "print 'max frequency ',round(freq,3),'Khz'\n"

+   ]

+  },

+  {

+   "cell_type": "code",

+   "execution_count": null,

+   "metadata": {

+    "collapsed": false

+   },

+   "outputs": [],

+   "source": []

+  }

+ ],

+ "metadata": {

+  "kernelspec": {

+   "display_name": "Python 2",

+   "language": "python",

+   "name": "python2"

+  },

+  "language_info": {

+   "codemirror_mode": {

+    "name": "ipython",

+    "version": 2

+   },

+   "file_extension": ".py",

+   "mimetype": "text/x-python",

+   "name": "python",

+   "nbconvert_exporter": "python",

+   "pygments_lexer": "ipython2",

+   "version": "2.7.10"

+  }

+ },

+ "nbformat": 4,

+ "nbformat_minor": 0

+}