From b1f5c3f8d6671b4331cef1dcebdf63b7a43a3a2b Mon Sep 17 00:00:00 2001 From: priyanka Date: Wed, 24 Jun 2015 15:03:17 +0530 Subject: initial commit / add all books --- 1133/CH3/EX3.12/Example3_12.sce | 41 +++++++++++++++++++++++++++++++++++++++++ 1 file changed, 41 insertions(+) create mode 100755 1133/CH3/EX3.12/Example3_12.sce (limited to '1133/CH3/EX3.12') diff --git a/1133/CH3/EX3.12/Example3_12.sce b/1133/CH3/EX3.12/Example3_12.sce new file mode 100755 index 000000000..296cfa3b1 --- /dev/null +++ b/1133/CH3/EX3.12/Example3_12.sce @@ -0,0 +1,41 @@ +//Example 3.12 +clc +disp("Step 1: Identify topology") +disp(" The feebdack is given from emitter of Q2 to the base of Q2. If Io = 0 then feedback current through 5 K register is zero, hence it is current sampling. As feedback signal is mixed in shunt with input, the amplifier is current shunt feedback amplifier.") +disp("") +disp("Step 2 and Step 3: Find input and output ") +disp(" The input circuit of the amplifier without feedback is obtained by opening the output loop at the emitter of Q2(Io = 0). This places R''(5 K) in series with Re from base to emitter of Q1. The output circuit is found by shorting the input node, i.e. making Vi = 0. This places R'' (5 K) in parallel with Re. The resultant equivalent circuit is shown in fig.3.59 ") +disp("") +disp("Step 4: Find open circuit transfer gain.") +disp(" A_I = Io / Is = -Ic/I_b2 * I_b2/I_c1 * I_c1/I_b1 * I_b1/Is") +disp("We know that -I_c2 / I_b2 = A_i2 = -hfe = -50 and") +disp(" -I_c1 / I_b1 = A_i1 = -hfe = 50") +disp(" I_c1 / I_b1 = 50") +disp("Looking at fig.3.59 we can write,") +disp(" I_b2 / I_c1 = -R_c1 / R_c1+R_i2 ") +ri2=1.5+(51*((5*0.5)/(5.5))) // in k-ohm +format(8) +disp(ri2,"where R_i2(in k-ohm) = h_ie + (1+h_fe)*(R_e2||R'') =") +x1=-2/(2+24.6818) +disp(x1," I_b2 / I_c1 =") +disp(" I_b1 / Is = R / R+R_i1 where R = Rs||(R''+R_e2) ") +r=((1*5.5)/(1+5.5))*10^3 // in ohm +format(9) +disp(r,"Therefore, R(in ohm) =") +disp("and R_i1 = h_ie + (1+h_fe)*R_e1 = 16.8 k-ohm") +x1=846.1538/(846.1538+(16.8*10^3)) +format(8) +disp(x1,"Therefore, I_b1 / Is =") +ai=50*0.07495*50*0.04795 +format(7) +disp(ai," A_I =") +disp("") +disp("Step 5: Calculate beta") +beta=500/(500+(5*10^3)) +disp(beta," beta = If / Io = R_e2 / R_e2|R'' =") +disp("") +disp("Step 6: Calculate D, A_If") +d=1+(0.0909*8.9848) +disp(d," D = 1 + A_I*beta =") +aif=8.9848/1.8168 +disp(aif," A_If = A_I / D =") -- cgit