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QUESTION 7: Figure 13.11 shows the ac equivalent circuit of the gain stage of 741 op-amp. Gain for the gain stage (i.e. Av2) can be calculated using equation given below the Figure 13.11. Given that βn = 200, R8 = 0 Ω, Ri3 = 4.5 MΩ, Ract2 = 71.454090746695 kΩ, and bias current IC17 = 0.69975 mA. Calculate the gain of the gain stage (i.e. AV2). Ri2(MΩ) Format : 2.2947457985556 R017(kΩ) Format : 52.558070797438 AV2(V/V) Format: -977.58272576696 Figure 13.11 Av2 = vo2 vo1 = −βn(1 + βn)R9(Ract2∥Ri3∥Ro17) Ri2{R9 + [rπ17 + (1 + βn)R8]}

QUESTION 7: Figure 13.11 shows the ac equivalent circuit of the gain stage of 741 op-amp. Gain for the gain stage (i.e. Av2) can be calculated using equation given below the Figure 13.11. Given that βn = 200, R8 = 0 Ω, Ri3 = 4.5 MΩ, Ract2 = 71.454090746695 kΩ, and bias current IC17 = 0.69975 mA. Calculate the gain of the gain stage (i.e. AV2). Ri2(MΩ) Format : 2.2947457985556 R017(kΩ) Format : 52.558070797438 AV2(V/V) Format: -977.58272576696 Figure 13.11 Av2 = vo2 vo1 = −βn(1 + βn)R9(Ract2∥Ri3∥Ro17) Ri2{R9 + [rπ17 + (1 + βn)R8]}

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QUESTION 7: Figure 13.11 shows the ac equivalent circuit of the gain stage of 741 op-amp. Gain for the gain stage (i.e. A v 2 ) can be calculated using equation given below the Figure 13.11 .
Given that β n = 200 , R 8 = 0 Ω , R i 3 = 4.5 M Ω , R a c t 2 = 71.454090746695 k Ω , and bias current I C 17 = 0.69975 m A .
Calculate the gain of the gain stage (i.e. A V 2 ). R i 2 ( M Ω ) Format : 2.2947457985556 R 017 ( k Ω ) Format : 52.558070797438 A V 2 ( V / V ) Format: -977.58272576696
Figure 13.11
A v 2 = v o 2 v o 1 = β n ( 1 + β n ) R 9 ( R a c t 2 R i 3 R o 17 ) R i 2 { R 9 + [ r π 17 + ( 1 + β n ) R 8 ] }

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QUESTION 7: Figure 13.11 shows the ac equivalent circuit of the gain stage of 741 op-amp. Gain for the gain stage (i. e. Av2) can be calculated using equation given below the Figure 13.11. Given that βn = 200, R8 = 0 Ω, Ri3 = 4.5 MΩ, Ract2 = 74.404761904762 kΩ, and bias current IC17 = 0.672 mA. Calculate the gain of the gain stage (i.e. Av2). Ri2(MΩ) Format : 7.2795939423957 Ro17 (kΩ) Format : 76.708475809295 Av2 (V/V) Format : −765.70604502993 Format: 7.2795939423957 Ro17 (kΩ) Format : 76.708475809295 Av2 (V/V) Format : -765.70604502993 Figure 13.11 Av2 = vo2 vo1 = −βn(1 + βn)R9(Ract2∥Ri3∥Ro17) Ri2{R9 + [rπ17 + (1 + βn)R8]}
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QUESTION 4: Refer to Figure 13.11 that shows the ac equivalent circuit of the gain stage of 741 op-amp. Given that β = 200 and IC17 = 0.6705 mA. Find input resistance of the gain stage (i.e. Ri2) when R8 = 0 Ω. IC16 (μA) Format : 88.4759 rπ16 (kΩ) Format : 867.6090708423 rπ17 (kΩ) Format : 3.7294032856343 Ri2 (MΩ) Format :3.9224798448834 Figure 13.11
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QUESTION 6: Consider the output stage in Figure 13.8. Assume the reverse saturation currents for Q18 and Q19 are IS = 10−14 A, and the reverse saturation currents for Q14 and Q20 are IS = 3×10−14 A. Note that Q13A is 1/4 area of Q12. Neglect base currents except when you are calculating IE18. Given that β = 191 and IREF = 0.298 mA. By first assuming that VBE19 = 0.6 V, calculate the bias currents for Q13A, Q18 and Q19. Calculate also the bias voltage VBB, and the bias currents for Q14 and Q20. Hints: You may refer to Example 13.3 in the textbook. IC13A (mA) Format : 0.0967 IC18 (μA) Format : 43.94676894093 IC19 (mA) Format: 0.0535 VBB (V) Format: 3.7203443524428 IC14 (μA) Format: 72.626056695569 IC20 (μA) Format : 63.975062486445 Figure 13.8: Basic output stage of 741 op-amp
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