feedbackece.uprm.edu/~mtoledo/web/4202/s2014/feedback.pdf · 2014-02-13 · figure 8.20 finding the...
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FEEDBACK AMPLIFIERSINEL4202 Manuel Toledo
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Figure 8.1 General structure of the feedback amplifier. This is a signal-flow diagram, and the quantities x represent either voltage or current signals.
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Figure 8.4 The four basic feedback topologies: (a) voltage-mixing voltage-sampling (series–shunt) topology; (b) current-mixing current-sampling (shunt–series) topology; (c) voltage-mixing current-sampling (series–series) topology; (d) current-mixing voltage-sampling (shunt–shunt) topology.
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Figure 8.11 Summary of the rules for finding the A circuit and β for the voltage-mixing voltage-sampling case of Fig. 8.10(a).
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Figure 8.12 Circuits for Example 8.1.
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Figure 8.16 Finding the A circuit and β for the voltage-mixing current-sampling (series–series) case.
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Figure 8.6 An example of the series–series feedback topology. (Biasing not shown.)
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Figure 8.17 Circuits for Example 8.2.
IC1 = 0.6mA, IC2 = 1mA, IC3 = 4mA, hfe = 100, rO = ∞
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Figure 8.20 Finding the A circuit and β for the current-mixing voltage-sampling (shunt–shunt) feedback amplifier in Fig. 8.19.
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Figure 8.21 Circuits for Example 8.3.
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Figure 8.24 Finding the A circuit and β for the current-mixing current-sampling (shunt–series) feedback amplifier of Fig. 8.23.
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Figure 8.25 Circuits for Example 8.4.
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Figure E8.7
Exercise 8.7: Use the feedback method to find the voltage gain Vo/Vi, the input resistance Rin and the output resistance Rout of the above inverting op-amp configuration. Let the op-amp have open-loop gain μ = 104 V/V, Rid = 100kΩ, and ro = 1kΩ. (Hint: The feedback is of the shunt-shunt type.)