Which is the collect answer?
a)
b)
c)
d)
Homework Answers
The correct option is (d)
The given diagram is of ac op-amp integrator with dc gain control.
The entire solution is given below.
Thank you.
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Which is the collect answer?
a)
b)
c)
d)
Consider the following electrical circuit diagram. Select...
Consider an electrical system shown in the following circuit diagram RI R2 Show that the transfer...
Consider an electrical system shown in the following circuit diagram RI R2 Show that the transfer function from vi to vo can be expressed as H(s) s a R2 R1R2 and b where a RI R2C RI R2C = 5 x 104 , R2 Compute a and b of the electrical system for R1 C 10-6 F 1020 , and Compute the maximum phase (in degrees) of the electrical system and the correspond ing frequency (in rad/sec) Sketch the frequency...
Answer Question B-3-13 above with the instructions listed B-3-13. Consider the system shown in Figure 3-42. An armature...
Answer Question B-3-13 above with the instructions listed
B-3-13. Consider the system shown in Figure 3-42. An armature-controlled dc servomotor drives a load consisting of the moment of inertia Ji. The torque developed by the motor is T.The moment of inertia of the motor rotor is J. The angular displacements of the motor rotor and the load er circuit Eo(s)/E(s) of the element are 0 and 0, respectively. The gear ratio is n 0/0m. Obtain the transfer function O(s)/E(s) L...
Part B To simplify the circuit diagram, we represent the two resistances R1 and R2 by...
Part B To simplify the circuit diagram, we represent the two resistances R1 and R2 by just one resistance, R, as shown in (Figure 2). What is the value of R? Note that this new resistor is equivalent to the combination of resistors 1 and 2 in parallel in the sense that if you replaced one by the other, the electrical properties of the circuit would remain unchanged. Figure ©2 of 2 > Express the resistance R in terms of...
Which is the collect answer? Consider the following circuit diagram and code: +V w L4 L2...
Which is the collect answer?
Consider the following circuit diagram and code: +V w L4 L2 Cabi L1 Cobo LO PORTL = 0x16; unsigned char val=2; while (1) { PORTL &=-(1<<val); if (PINL & ©x1) { val -=1; if (val<1) { val=1; } delay_ms (1000); } else { PORTL &=0xEF; } } Assume DDRC has been initialised, the switch is open and the system is powered on, select the correct statement: OLEDO IS OFF, LED 1 is ON, LED2 is...
Problem #1 (100pts) Consider the circuit shown in the Figure of three simpler circuits (stages). 1) Without solving...
Problem #1 (100pts) Consider the circuit shown in the Figure of three simpler circuits (stages). 1) Without solving for the transfer function find how each stage behaves versus frequency o 2) Using this information find how the total circuit behaves versus frequency 2) Find the transfer function for each stage 3) Find the transfer function of the total circuit 4) Plot the |H(jo) 2 as a cascade Av R4 R1 ww Vin Vout R3 Ov Stage II Stage II Stage...
Find energy stored in the capacitor C Question 46 Consider the following circuit with & =...
Find energy stored in the capacitor C
Question 46 Consider the following circuit with & = 12 V & = 6 V R, = 32 R2 = 30 R3 = 5 Q R = 10 Rs = 40 R$ = 22 R2 = 322 Rg = 10 11 = 1.8 A 1 = 1.2 A Is = 2 A 16 = 3 A and C= 4 LF find the energy stored in the capacitor C. Not yet answered Marked out...
Consider the following circuit with &; = 15.0 V, r1 = 1.0 22 E = 10.0...
Consider the following circuit with &; = 15.0 V, r1 = 1.0 22 E = 10.0 V r2 = 1.0 Q Ez = 8.0 V,13 = 1.0 2 R2 = 2.00 R2 = 2.00 R3 = 2.00, 1.02 and Rs = 3.0 12 Find the potential of point & with respect to point b. R R RA 2 SO & RS R R Select one: a. 0.94 V b. 2.83 V c. none of these d. 3.78 V e. 1.89...
Consider a Sinusoidally Driven LC Electrical Circuit, which Contains an Electric Potential Oscill...
Consider a Sinusoidally Driven LC Electrical Circuit, which Contains an Electric Potential Oscillator, E E, cos(or), an Inductor, L, and a Capacitor, C. Note that an Oscillating Charge,g).Forms on the Capacitor Plates, as well as an Oscillating Current, I(). throughout the Circuit, which is Associated with the Driven Frequency, ω , as Shown. 1. 1(6) gt) E(r) Recall that the Electric Potential Over an Inductor is Given by E , and the dl dr Electric Potential Over a Capacitor is...
thx!!!! Question 3 (5.5 marks) a) Find the transfer function of the electrical circuit shown in...
thx!!!!
Question 3 (5.5 marks) a) Find the transfer function of the electrical circuit shown in Figure 1. What is the value of the steady state gain(s), if any? b) If R1 1, R2 = 2n, C\ = 2- 10-3F, C 1-10-3F, calculate the time constants of the system (if any). c) Find the initial and final values of the unit impulse response of the circuit d) Derive the time-domain expression of the output if the input is the function...
Problem 4 (50 pts): Consider the electrical circuit represented in figure, with R = 102, C...
Problem 4 (50 pts): Consider the electrical circuit represented in figure, with R = 102, C = 1 F and L=1 H. Assume V (t) as input and i(t) as output E ER V.(t) a) (5 pts) Determine the differential equation of the system b) (5 pts) Find the transfer function of the system c) (20 pts) Write the symbolic expressions of magnitude and phase of the transfer function d) (20 pts) Determine the expression of steady-state response of the...
Consider an electrical system shown in the following circuit diagram RI R2 Show that the transfer function from vi to vo can be expressed as H(s) s a R2 R1R2 and b where a RI R2C RI R2C = 5 x 104 , R2 Compute a and b of the electrical system for R1 C 10-6 F 1020 , and Compute the maximum phase (in degrees) of the electrical system and the correspond ing frequency (in rad/sec) Sketch the frequency...
Answer Question B-3-13 above with the instructions listed
B-3-13. Consider the system shown in Figure 3-42. An armature-controlled dc servomotor drives a load consisting of the moment of inertia Ji. The torque developed by the motor is T.The moment of inertia of the motor rotor is J. The angular displacements of the motor rotor and the load er circuit Eo(s)/E(s) of the element are 0 and 0, respectively. The gear ratio is n 0/0m. Obtain the transfer function O(s)/E(s) L...
Part B To simplify the circuit diagram, we represent the two resistances R1 and R2 by just one resistance, R, as shown in (Figure 2). What is the value of R? Note that this new resistor is equivalent to the combination of resistors 1 and 2 in parallel in the sense that if you replaced one by the other, the electrical properties of the circuit would remain unchanged. Figure ©2 of 2 > Express the resistance R in terms of...
Which is the collect answer?
Consider the following circuit diagram and code: +V w L4 L2 Cabi L1 Cobo LO PORTL = 0x16; unsigned char val=2; while (1) { PORTL &=-(1<<val); if (PINL & ©x1) { val -=1; if (val<1) { val=1; } delay_ms (1000); } else { PORTL &=0xEF; } } Assume DDRC has been initialised, the switch is open and the system is powered on, select the correct statement: OLEDO IS OFF, LED 1 is ON, LED2 is...
Problem #1 (100pts) Consider the circuit shown in the Figure of three simpler circuits (stages). 1) Without solving for the transfer function find how each stage behaves versus frequency o 2) Using this information find how the total circuit behaves versus frequency 2) Find the transfer function for each stage 3) Find the transfer function of the total circuit 4) Plot the |H(jo) 2 as a cascade Av R4 R1 ww Vin Vout R3 Ov Stage II Stage II Stage...
Find energy stored in the capacitor C
Question 46 Consider the following circuit with & = 12 V & = 6 V R, = 32 R2 = 30 R3 = 5 Q R = 10 Rs = 40 R$ = 22 R2 = 322 Rg = 10 11 = 1.8 A 1 = 1.2 A Is = 2 A 16 = 3 A and C= 4 LF find the energy stored in the capacitor C. Not yet answered Marked out...
Consider the following circuit with &; = 15.0 V, r1 = 1.0 22 E = 10.0 V r2 = 1.0 Q Ez = 8.0 V,13 = 1.0 2 R2 = 2.00 R2 = 2.00 R3 = 2.00, 1.02 and Rs = 3.0 12 Find the potential of point & with respect to point b. R R RA 2 SO & RS R R Select one: a. 0.94 V b. 2.83 V c. none of these d. 3.78 V e. 1.89...
Consider a Sinusoidally Driven LC Electrical Circuit, which Contains an Electric Potential Oscillator, E E, cos(or), an Inductor, L, and a Capacitor, C. Note that an Oscillating Charge,g).Forms on the Capacitor Plates, as well as an Oscillating Current, I(). throughout the Circuit, which is Associated with the Driven Frequency, ω , as Shown. 1. 1(6) gt) E(r) Recall that the Electric Potential Over an Inductor is Given by E , and the dl dr Electric Potential Over a Capacitor is...
thx!!!!
Question 3 (5.5 marks) a) Find the transfer function of the electrical circuit shown in Figure 1. What is the value of the steady state gain(s), if any? b) If R1 1, R2 = 2n, C\ = 2- 10-3F, C 1-10-3F, calculate the time constants of the system (if any). c) Find the initial and final values of the unit impulse response of the circuit d) Derive the time-domain expression of the output if the input is the function...
Problem 4 (50 pts): Consider the electrical circuit represented in figure, with R = 102, C = 1 F and L=1 H. Assume V (t) as input and i(t) as output E ER V.(t) a) (5 pts) Determine the differential equation of the system b) (5 pts) Find the transfer function of the system c) (20 pts) Write the symbolic expressions of magnitude and phase of the transfer function d) (20 pts) Determine the expression of steady-state response of the...
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