diff options
Diffstat (limited to '1691/CH1/EX1.24/Example1_24.sce')
| -rwxr-xr-x | 1691/CH1/EX1.24/Example1_24.sce | 57 |
1 files changed, 57 insertions, 0 deletions
diff --git a/1691/CH1/EX1.24/Example1_24.sce b/1691/CH1/EX1.24/Example1_24.sce new file mode 100755 index 000000000..095c043aa --- /dev/null +++ b/1691/CH1/EX1.24/Example1_24.sce @@ -0,0 +1,57 @@ +//Example 1.24
+clc
+disp("Step 1: Identify topology")
+disp("Here output voltage is sampled and fed in shunt with the input siganl such that, I_s-I_f = I_i, hence topology is voltage shunt feedback")
+disp("")
+disp("Step 2 and Step 3: Find input and output circuit")
+disp("To find input circuit, set Vo = 0. This places resistor R across the input. To find output circuit, set V_i = 0. This places resistor R across output. The resultant circuit is shown in fig 1.69. The circuit shows voltage source replaced by current source")
+disp("")
+disp("Step 4: Replace transistor with their h-parameter equivalent circuits as shown in fig 1.70")
+disp("")
+disp("Step 5 : Find open loop transfer gain")
+disp("R_M = Vo/I_s = R_c2*Io/I_s")
+disp(" = R_c2 * Io/I_b2 * I_b2/I_e1 * I_e1/I_b1 * I_b1/I_s")
+iob=(-100*2.2)/7.3
+format(7)
+disp(iob,"Io/I_b2 = -h_ie*R / R+R_c2 =")
+iobe=(101*1.1)/3.1
+format(6)
+disp(iobe,"I_b2/I_e2 * I_e1/I_b1 = -h_ie*R / R+R_c2 =")
+disp("I_b1/I_s = R_s||R / (R_s||R)+R_i1")
+ri1=2+(101*1.1)
+disp(ri1,"where R_i1(in k-ohm) = h_ie + (1+h_fe)R_e =")
+ibs=(2.2/3.2)/((2.2/3.2)+(113.1))
+format(8)
+disp(ibs,"I_b1/I_s =")
+rm=5.1*-30.137*35.84*6.04*10^-3
+format(7)
+disp(rm,"Therefore, R_M(in k-ohm) =")
+disp("")
+disp("Step 6: Calculate beta")
+b=-1/(2.2*10^3)
+format(10)
+disp("beta = I_f/Io = V_i-Vo/Vo*R =")
+disp(b," = -1/R = because (Vo > V_i)")
+disp("")
+disp("Step 7: Calculate D, R_Mf, A_vf, R_if, R''_of")
+d=1+(4.545*33.539*10^-1)
+format(7)
+disp(d,"D = 1 + beta*R_M =")
+rmf=-33.539/16.245
+format(6)
+disp(rmf,"R_Mf(in k-ohm) = R_M/D =")
+avf=-2.065
+disp(avf,"A_vf = V0/V_s = Vo/I_s*R_s =")
+ri=((1*113.1*2.2)/((113.1*2.2)+(1*113.1)+(2.2*1)))*10^3
+format(4)
+disp(ri,"R_i(in ohm) = R_s || R_i1 || R =") //answer in textbook wrong
+rif=(683)/16.245
+format(3)
+disp(rif,"R_if(in ohm) = R_i/D =")
+disp("Ro = infinity")
+disp("Therefore, R_of = infinity/D = infinity")
+ro=(2.2*5.1)/(7.3)
+format(6)
+disp(ro,"R''_o(in k-ohm) = R || R_c2 =")
+rof=(1.537*10^3)/16.245
+disp(rof,"R''_of(in ohm) = R''_o/D =")
|