5.24 The circuit in Fig. P5.24 is a noninverting summing DESIGN amplifier. Assume the op amp is ideal. Design the circuit so that PROBLEM PSPICE MULTISIM v. = Va + 2v + 3ve. a) Specify the numerical values of Ra and R b) Calculate ia, ib, and ic (in microamperes) when Va = 0.7 V, v = 0.4 V, and ve = 1.1 V. %3D Figure P5.24 100 kN 20 kN 5V -5V R. vo34.7 kn R = 15 kn' %3D Re +

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**Design Problem 5.24** The circuit in Fig. P5.24 is a noninverting summing amplifier. Assume the op amp is ideal. Design the circuit so that: \[ v_o = v_a + 2v_b + 3v_c \] a) Specify the numerical values of \( R_a \) and \( R_c \). b) Calculate \( i_a \), \( i_b \), and \( i_c \) (in microamperes) when \[ v_a = 0.7 \, \text{V}, \, v_b = 0.4 \, \text{V}, \, \text{and} \, v_c = 1.1 \, \text{V}. \] **Figure P5.24:** - This figure illustrates a noninverting summing amplifier circuit. - The operational amplifier is powered with \( +5 \, \text{V} \) and \( -5 \, \text{V} \). - The feedback resistor is 20 kΩ, and the resistor connected to the output is 4.7 kΩ. - The input resistors are \( R_a \), \( R_b \) (15 kΩ), and \( R_c \). - The circuit takes three input voltages: \( v_a \), \( v_b \), and \( v_c \), which are connected to the resistor network. - The diagram depicts the flow of currents: \( i_a \), \( i_b \), and \( i_c \) through their respective resistors. --- **Section 5.6** Reference to follow-up content or additional sections may be related to similar problems or examples for further context.