Q6. Write the expression for Vo in terms of Ve (consider the top output line to...
Write an expression for the output voltage, vo, in terms of the resistor symbols and the input voltage, vin. R2 10K 100K +15 V C1 0.1 HF R1 10K 3 -15 V C2 '0.1 F
Find the output voltage Vo as an expression in terms of the input sources Vi, v2, v3, and the resistance R in the following op-amp circuit. 3. Ri Vy R: 4. In the following two stage op-amp circuit, find the output voltage Vo as an expression in terms of the input voltages v1, v2 and resistor values R1, R2, R3, and R4. R2 R ウー+
Q6. a) Write the output expression for the circuit shown in the figure. b) Develop truth table for the circuit. (1 Mark) (4 Marks) A B C 13 X D Fig.2 07 [5] a) Minimize the following logic function using K-Map. b) Implement the minimized expression using basic gates. (3 Marks) (2 Marks) F(A,B,C,D) = (0,2,5,7,8,10,13,15) Q8 a) Write the output expression of the logic circuit shown in the figure. b) Minimize the expression using Boolean laws and theorems. C)...
1. Analog Computing. Consider an object thrown straight upward with an initial vertical velocity vo from an initial height h(0) 0 We will use the circuit below to do an analog calculation of thc altitude as a function of time. vout (t) = klh(t) Vo is fixed at Vo = kovo, where vo is the initial upward velocity. All Rs are equal and all Cs are equal. Assume all capacitors are initially discharged. (a) Write an expression for the output...
9. In this ideal op amp circuit: a) Find the output voltage vo in terms of the input voltage v. b) The op amp is supplied by +10v and -10v. If0 V15v, find the range of the output voltage vo. (15 pts.) 10 k2 5 kQ 10V -10V ng 2.5v(+ 0)
For the amplifier circuits in Figs.3 and 7: a. Write an expression for the output voltage, vo, in terms of the resistor symbols and the input voltage, vin. ---For the first circuit (Fig. 3), the feedback resistor is the series combination of R2 and R3. Use both of these resistor symbols in your expression. -- For circuit 2 (Fig. 7), assume that vin = 5V and ignore potentiometer R1 and C3. b. Using resistor values and input voltage amplitudes, calculate...
Question 9 Consider the device D shown in Problem 0.7 a) write an expression for the power delivered to D ifio=-100[mA] and VD(t) = (12 [V]ー1.6(Vs-1]t). The expression for vot) is considered valid for t > 0 [s]. b) Given the voltage and current specified in 0.8 a), find the energy delivered to D between t -0 and t 2 [s]. Repeat problem 0.8 for vo() (12e-02. -1) [V],t> 0[s.
Exercise 4) Consider the RC network shown, where v(t) is the input voltage and ve(t) is the circuit output voltage. R is the same for all resistors (4a) Write differential equations of the circuit in terms of the currents. Convert the equa tions to the Laplace domain (5 marks)v(oO 4b) Find the transfer function Ve(s)/V(s) (5 marks) (4c) Using the final value theorem, calculate the steady-state value of ve(t) for an unit step input of u(t), i.e., u(t)-1 V (2.5...
Write an expression for the output voltage of an AC source that has an amplitude of 30 V and a frequency of 170 Hz. (Use the dV following as necessary: t. Assume V is in volts and t is in seconds. Do not include units in your answer. Assume V = 0 and >0 dt when t 0.)
Write an expression for the output voltage of an AC source that has an amplitude of 27 V and a frequency of 270 Hz. (Use the following as necessary: t. Assume V is in volts and t is in seconds. Do not include units in your answer. Assume V = 0 and a > 0 when t = 0.) dt V = 27 sin ( 270nt)