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author | Trupti Kini | 2016-05-12 23:30:31 +0600 |
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committer | Trupti Kini | 2016-05-12 23:30:31 +0600 |
commit | 5218db5dbae9c0890958f57af323c8d296ac9b07 (patch) | |
tree | 23dfd4b8c171a9f4ca5e20525a4f92a216484ce3 /Electronic_Devices_and_Circuits_by_J._Paul/Ch11_1.ipynb | |
parent | da40306957548bcc4a1a8d5e2cdc8928017fe5da (diff) | |
download | Python-Textbook-Companions-5218db5dbae9c0890958f57af323c8d296ac9b07.tar.gz Python-Textbook-Companions-5218db5dbae9c0890958f57af323c8d296ac9b07.tar.bz2 Python-Textbook-Companions-5218db5dbae9c0890958f57af323c8d296ac9b07.zip |
Added(A)/Deleted(D) following books
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter25_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter26_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter27_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter28_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter29_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter30_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter31_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter32_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter33_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter34_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter35_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter36_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter37_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter38_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/chapter39_2.ipynb
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/screenshots/chapter29example32_2.png
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/screenshots/chapter29example33_2.png
A A_Textbook_of_Electrical_Technology_:_AC_and_DC_Machines_(Volume_-_2)_by_A._K._Theraja_B.L_Thereja/screenshots/chapter32example30_2.png
A Advance_Semiconductor_Devices_by_K._C._Nandi/chapter1_1.ipynb
A Advance_Semiconductor_Devices_by_K._C._Nandi/chapter2_1.ipynb
A Advance_Semiconductor_Devices_by_K._C._Nandi/chapter5_1.ipynb
A Advance_Semiconductor_Devices_by_K._C._Nandi/screenshots/KC_econ1_chapter1_1.png
A Advance_Semiconductor_Devices_by_K._C._Nandi/screenshots/KC_econ_ch1_1.png
A Advance_Semiconductor_Devices_by_K._C._Nandi/screenshots/KC_percentChangeinDiodeCurrent_chapter2_1.png
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch15_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch15_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch15_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch16_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch16_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch16_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch17_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch17_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch17_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch18_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch18_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch18_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch19_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch19_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch19_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch20_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch20_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch20_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch21_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch21_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch21_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch22_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch22_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch22_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch23_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch23_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch23_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch24_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch24_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch24_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch25_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch25_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch25_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch26_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch26_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch26_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch27_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch27_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch27_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch28_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch28_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch28_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch29_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch29_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch29_3.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch30_1.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch30_2.ipynb
D College_Physics_(volume_2)_by_R._A._Serway_and_J._S._Faughn/Ch30_3.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch10_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch11_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch12_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch13_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch1_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch2_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch3_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch4_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch5_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch6_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch7_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch8_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/Ch9_1.ipynb
A Electronic_Devices_and_Circuits_by_J._Paul/screenshots/4CollCurr_1.png
A Electronic_Devices_and_Circuits_by_J._Paul/screenshots/4MaxNBasRes_1.png
A Electronic_Devices_and_Circuits_by_J._Paul/screenshots/4saturationMode_1.png
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch1_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch1_2.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch1_3.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch1_4.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch1_5.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch2.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch2_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch2_2.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch2_3.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch2_4.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch2_5.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch3.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch3_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch3_2.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch3_3.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch3_4.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch3_5.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch4.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch4_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch4_2.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch4_3.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch4_4.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch4_5.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch6.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch6_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch6_2.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch6_3.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch6_4.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch6_5.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch7.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch7_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch7_2.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch7_3.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch7_4.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch7_5.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch8.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch8_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch8_2.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch8_3.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch8_4.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/ch8_5.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter1_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter2_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter3_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter4_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter6_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter7_1.ipynb
D Engineering_Physics_(volume_-_2)_by_B._K._Pandey_and_S._Chaturvedi/chapter8_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/Ch11_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/Ch12_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/Ch13_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/Ch14_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/Ch3_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/Ch4_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/Ch5_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/Ch6_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/Ch7_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/Ch8_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/Ch9_1.ipynb
A Linear_Integrated_Circuit_by_M._S._Sivakumar/screenshots/BiasingVoltage_1.png
A Linear_Integrated_Circuit_by_M._S._Sivakumar/screenshots/InOutCrrnt_1.png
A Linear_Integrated_Circuit_by_M._S._Sivakumar/screenshots/inAndOutCurrnt_1.png
Diffstat (limited to 'Electronic_Devices_and_Circuits_by_J._Paul/Ch11_1.ipynb')
-rw-r--r-- | Electronic_Devices_and_Circuits_by_J._Paul/Ch11_1.ipynb | 322 |
1 files changed, 322 insertions, 0 deletions
diff --git a/Electronic_Devices_and_Circuits_by_J._Paul/Ch11_1.ipynb b/Electronic_Devices_and_Circuits_by_J._Paul/Ch11_1.ipynb new file mode 100644 index 00000000..fc78f77f --- /dev/null +++ b/Electronic_Devices_and_Circuits_by_J._Paul/Ch11_1.ipynb @@ -0,0 +1,322 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Chapter 11 - Sinusoidal Oscillators" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## PageNumber 514 example 2" + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "min frequency = 1769.29hertz\n", + "max frequency = 17692.85hertz\n", + "resistance r3 = 20000.00ohm\n" + ] + } + ], + "source": [ + "macapa=900*10**-12##farad\n", + "micapa=90*10**-12##farad\n", + "r=100*10**3##ohm\n", + "#(a) frequency range\n", + "fremin=1/(2*3.14*r*macapa)\n", + "print \"min frequency = %0.2f\"%((fremin))+\"hertz\"\n", + "fremax=1/(2*3.14*r*micapa)\n", + "print \"max frequency = %0.2f\"%((fremax))+\"hertz\"\n", + "#(b) r3\n", + "r=10*10**3##ohm\n", + "r3=2*r\n", + "print \"resistance r3 = %0.2f\"%((r3))+\"ohm\"" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## PageNumber 516 example 3" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "min voltage >= 7.50volt\n", + "frequency = 42379.83hertz\n" + ] + } + ], + "source": [ + "from math import sqrt\n", + "c1=0.004*10**-6##farad\n", + "c2=0.03*10**-6##farad\n", + "induct=4*10**-3##henry\n", + "#min voltage\n", + "mivolt=c2/c1\n", + "print \"min voltage >= %0.2f\"%((mivolt))+\"volt\"\n", + "#frequency\n", + "freque=(((1/(2*3.14)))*sqrt((c1+c2)/(induct*c1*c2)))\n", + "print \"frequency = %0.2f\"%((freque))+\"hertz\"" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## PageNumber 517 example 5" + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "frequency = 166467.63hertz\n", + "ratio1 greater than 1 so oscillations possible\n" + ] + } + ], + "source": [ + "from math import sqrt\n", + "induct=500*10**-6##henry\n", + "induc1=5000*10**-6##henry\n", + "mutuin=300*10**-6##henry\n", + "c1=150*10**-12##farad\n", + "#(a) frequency\n", + "indcto=induct+induc1+2*mutuin\n", + "freque=1/((2)*3.14*sqrt(indcto*c1))\n", + "#(b) condition\n", + "r=10*10**3##ohm\n", + "conduc=8*10**-3##ampere per volt\n", + "r1=50*10**3##ohm\n", + "r_=r*r1/(r+r1)\n", + "volgai=conduc*r_\n", + "print \"frequency = %0.2f\"%((freque))+\"hertz\"\n", + "ratio1=(induc1+mutuin)/(induct+mutuin)\n", + "ratio1=ratio1*volgai\n", + "print \"ratio1 greater than 1 so oscillations possible\"" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## PageNumber 518 example 6" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "resonanting capacitance = 5.00e-14farad\n", + "resonant frequency = 1.42e+06hertz\n", + "parallel resonant frequency = 1.03e+06hertz\n", + "series resonant frequency = 1.01e+06hertz\n", + "quality factor = 3162.28\n", + "loop gain = 100.00\n", + "bias = 6.00e-05second\n" + ] + } + ], + "source": [ + "from math import sqrt\n", + "cgs=5*10**-12##farad\n", + "cds=1*10**-12##farad\n", + "conduct=10*10**-3##ampere per volt\n", + "rd=50*10**3##ohm\n", + "r=10*10**6##ohm\n", + "induct=0.5##henry\n", + "c1=0.05*10**-12##farad\n", + "rse=1*10**3##ohm\n", + "c=1*10**-12##farad\n", + "#(1) c11\n", + "c11=((((cds*cgs)/(cds+cgs))+1)*c1)/(((cds*cgs)/(cds+cgs))+1+c1)\n", + "print \"resonanting capacitance = %0.2e\"%((c11))+\"farad\"\n", + "#(2) frequency\n", + "freque=((sqrt(2))/(2*3.14*sqrt(induct*c11)))\n", + "print \"resonant frequency = %0.2e\"%((freque))+\"hertz\"\n", + "#(3) frequency parallel\n", + "\n", + "freque=1/(2*3.14*sqrt(((induct*c*c1))/(c+c1)))\n", + "print \"parallel resonant frequency = %0.2e\"%((freque))+\"hertz\"\n", + "#frequency series\n", + "freque=1/((2*3.14*sqrt(induct*c1)))\n", + "print \"series resonant frequency = %0.2e\"%((freque))+\"hertz\"\n", + "qualit=((induct/c1)**(0.5))/rse\n", + "print \"quality factor = %0.2f\"%((qualit))\n", + "#correction required in book\n", + "#(4) loop gain\n", + "abeta1=conduct*rd*cds/cgs\n", + "print \"loop gain = %0.2f\"%((abeta1))\n", + "#(5)\n", + "w=r*(cds+cgs)\n", + "print \"bias = %0.2e\"%((w))+\"second\"" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## PageNumber 519 example 7" + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "frequency = 1.23e+06hertz\n", + "gain = 5.00\n" + ] + } + ], + "source": [ + "from math import sqrt\n", + "c=200*10**-12##farad\n", + "c1=1000*10**-12##farad\n", + "induct=100*10**-6##henry\n", + "#(1) frequency\n", + "ceq=(c*c1)/(c+c1)\n", + "freque=1/(2*3.14*(sqrt(induct*ceq)))\n", + "print \"frequency = %0.2e\"%((freque))+\"hertz\"##correction in the book\n", + "gaimin=c1/c\n", + "print \"gain = %0.2f\"%((gaimin))" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## PageNumber 520 example 8" + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "inductance = 4.02e-05henry\n" + ] + } + ], + "source": [ + "induc1=0.4*10**-3##henry\n", + "c=0.004*10**-6##farad\n", + "freque=120*10**3##hertz\n", + "induct=((1/(4*3.14**2*freque**2*c)))-induc1\n", + "print \"inductance = %0.2e\"%((induct))+\"henry\"" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## PageNumber 520 example 9" + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "frequency = 1087243.22hertz\n", + "ratio parallel series = 1.03\n", + "quality factor = 409.67\n" + ] + } + ], + "source": [ + "from math import sqrt\n", + "induct=0.33##henry\n", + "c=0.065*10**-12##farad\n", + "c1=1*10**-12##farad\n", + "r=5.5*10**3##ohm\n", + "#(1) series resonant frequency\n", + "freque=(1/(2*(3.14)))*sqrt(1/((induct)*c))\n", + "print \"frequency = %0.2f\"%((freque))+\"hertz\"\n", + "#(2)exceed of frequency\n", + "ratio1=sqrt((1+(c/c1)))\n", + "print \"ratio parallel series = %0.2f\"%((ratio1))\n", + "#correction required in the book\n", + "#(3) quality factor\n", + "qualit=(1/r)*sqrt(induct/c)\n", + "print \"quality factor = %0.2f\"%((qualit))" + ] + } + ], + "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": "2.7.9" + } + }, + "nbformat": 4, + "nbformat_minor": 0 +} |