c) Find the range of values for v, such that v, does not saturate and the op amp remains in its linear b) Find v, in terms of v. region of operation. Figure P5.23 60 kN 20 kn 16 V 15 kn -16 V 30 kn 2 kngv. Us 9, 6V

5.23 plz

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final circuit. b) If you use t16 V power supplies for the op amp, what range of input values will allow the op amp to stay in its linear operating region? Se 5.22 a) Design a noninverting amplifier (see Fig. 5.13) with a gain of 6, using a 75 kn resistor in the feedback path. Draw your final circuit diagram. b) Suppose you wish to amplify input signals in the range -2.5 V s v, s 15 V. What are the mini- mum values of the power supplies that will keep the op amp in its linear operating region? 5.23 The op amp in the circuit of Fig. P5.23 is ideal. PSPICE a) What op amp circuit configuration is this? MULTISIM Figure P5.25 R=20 kn 5 kn 10 V ww 8 kn -10 V 27 kn v. Va 5 V 2 kng

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c) Find the range of values for v, such that v, does not saturate and the op amp remains in its linear b) Find v, in terms of v,. region of operation. Figure P5.23 60 kn 20 kn 16 V +. 15 kn -16 V 30 kn 2 kngu. Us eal, 5.24 The circuit in Fig. P5.24 is a noninverting summing DESIGN amplifier. Assume the op amp is ideal. Design the PROBLEM op circuit so that PSPICE v. = V4 + 2v +3ve. %3D MULTISIM