From f35ea80659b6a49d1bb2ce1d7d002583f3f40947 Mon Sep 17 00:00:00 2001 From: prashantsinalkar Date: Tue, 10 Oct 2017 12:38:01 +0530 Subject: updated the code --- 1199/CH2/EX2.34/2_34.sci | 29 +++++++++++++++-------------- 1199/CH2/EX2.53/2_53.sci | 37 +++++++++++++++++++------------------ 2 files changed, 34 insertions(+), 32 deletions(-) (limited to '1199/CH2') diff --git a/1199/CH2/EX2.34/2_34.sci b/1199/CH2/EX2.34/2_34.sci index 73247141e..c5cb4da08 100755 --- a/1199/CH2/EX2.34/2_34.sci +++ b/1199/CH2/EX2.34/2_34.sci @@ -1,15 +1,16 @@ -// 2.34 -clc; -th=20; -Vz=2.73+th*10*10^-3; -Voffset=-2.73; -Vout=Vz+Voffset; -Rbias=(5-0.2)/10^-3; -Rzero=500; -th=50; -Vz=2.73+th*10*10^-3; -VmaxT=Vz+Voffset; -Vsupply=5; -Rl=(VmaxT*Rbias)/(Vsupply-VmaxT); -printf("Value of resistance R1=%.2f ohm",R1) +// 2.34 +clc; +clear +th=20; +Vz=2.73+th*10*10^-3; +Voffset=-2.73; +Vout=Vz+Voffset; +Rbias=(5-0.2)/10^-3; +Rzero=500; +th=50; +Vz=2.73+th*10*10^-3; +VmaxT=Vz+Voffset; +Vsupply=5; +Rl=(VmaxT*Rbias)/(Vsupply-VmaxT); +printf("Value of resistance R1=%.2f ohm",Rl) disp('value of resistance RL>>Rl') \ No newline at end of file diff --git a/1199/CH2/EX2.53/2_53.sci b/1199/CH2/EX2.53/2_53.sci index 7ac4db43e..57f322179 100755 --- a/1199/CH2/EX2.53/2_53.sci +++ b/1199/CH2/EX2.53/2_53.sci @@ -1,18 +1,19 @@ -// 2.53 -clc; -R=10^6; -C=2500*10^-12; -tc=R*C; -t=2*10^-3; -d=100*10^-12; -F=0.1; -el=10^3*{d*F*[exp(-t/tc)]/C}; -printf("Voltage just before t=2ms =%.2f mV",e1) -el_after=10^3*{d*F*[exp(-t/tc)-1]/C}; -disp(el_after,'voltage just after t=2ms (mV)') -printf("Voltage just after t=2ms =%.2f mV",el_after) -disp('when t=10ms') -t=10*10^-3; -T=2*10 -e_10=10^3*{d*F*[exp((-T/tc)-1)]*{exp(-(t-T))/tc}/C} -printf("output voltage 10 ms after the application of impulse =%.0f mV",e_10) +// 2.53 +clc; +clear +R=10^6; +C=2500*10^-12; +tc=R*C; +t=2*10^-3; +d=100*10^-12; +F=0.1; +el=10^3*{d*F*[exp(-t/tc)]/C}; +printf("Voltage just before t=2ms =%.2f mV",el) +el_after=10^3*{d*F*[exp(-t/tc)-1]/C}; +disp(el_after,'voltage just after t=2ms (mV)') +printf("Voltage just after t=2ms =%.2f mV",el_after) +disp('when t=10ms') +t=10*10^-3; +T=2*10 +e_10=10^3*{d*F*[exp((-T/tc)-1)]*{exp(-(t-T))/tc}/C} +printf("output voltage 10 ms after the application of impulse =%.0f mV",e_10) \ No newline at end of file -- cgit