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Diffstat (limited to '3554/CH15/EX15.6/Ex15_6.sce')
| -rw-r--r-- | 3554/CH15/EX15.6/Ex15_6.sce | 26 |
1 files changed, 26 insertions, 0 deletions
diff --git a/3554/CH15/EX15.6/Ex15_6.sce b/3554/CH15/EX15.6/Ex15_6.sce new file mode 100644 index 000000000..92ce4e67b --- /dev/null +++ b/3554/CH15/EX15.6/Ex15_6.sce @@ -0,0 +1,26 @@ +// Exa 15.6
+
+clc;
+clear all;
+
+//Given data
+// Refering fig. 15.17- Narrow band pass filter
+
+Fc=1; // kHz
+Q=5; //Quality factor
+Avo=8; //Voltage gain
+Fc1=1.5;//New centre frequency(kHz)
+
+// Solution
+
+disp(" Let C1=C2=C3=C(say)=0.01 micro farads");
+C=0.01;//micro farads
+// But
+R1=Q/(2*%pi*Fc*10^3*C*10^-6*Avo); // From eqn. 15.45 on page no.530
+R2=Q/(2*%pi*Fc*10^3*C*10^-6*(2*Q^2-Avo));// From eqn. 15.47 on page no. 530
+R3=Q/(%pi*Fc*10^3*C*10^-6); // From eqn. 15.46 on agr no. 530
+printf(' The Values of R1, R2 and R3 are %.3f k Ohms(approx 10 k Ohms), %.3f k Ohms(approx 2 k Ohms and %.3f k Ohms(aprox 159 k Ohms) respectively\n',R1/1000,R2/1000,R3/1000);
+// To change Fc to Fc1 we simply have to change R2 to R21 given as
+R21=2000*(Fc/Fc1)^2;// since R2=2 k Ohms(approx)
+printf(' The calculated value of new R2 to change Fc from 1 kHz to 1.5 kHz keeping Avo(Voltage gain) and BW constant is = %.2f ohms (approx 820 Ohms) \n',R21);
+
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