Figure 2 shows an AC circuit with an ideal transformer with a
turn ratio of 2, calculate the current, IL.
r1=1 r2=2 r3=3 z4=4 r5=5 z6=6
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Figure 2 shows an AC circuit with an ideal transformer with a
turn ratio of 2,...
The AC circuit depicted in Figure E2.6 includes an ideal transformer and operates at ?= 20...
The AC circuit depicted in Figure E2.6 includes an ideal
transformer and operates at ?= 20 krad/sec.
Further, the circuit components are given as follows:
•Source: Is= 15?0? A(rms)
•Primary side: R_11= 10 R_12= 20? ,j?L_11 = j10?
•Secondary side:R_21= 100?, 1/j?C = variable reactance
•Turns ratio: 1:n = 1:5
(a) Derive the Thevenin equivalent of the driving circuit on the
primary side of the ideal transformer. Draw
the simplified circuit after transferring the impedance of the
secondary side to...
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 K2,...
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 K2, R2=8 K2, R3=5.1 K2, R4=6 KN, R5=14 KN, R6=4.2 KS, RL=10.3 KS, V1=1V, 12=0.5 mA and V3=3.2 V. R6 R1 R5 Vo w + * RL + 12 R2 V1 R3 R4 V3 Answer: OV Using the above circuit, but consider the following component values: R1= 2 K12 R2=8 K2, R3=2.9 K2, R4=6 KI2, R5=10.8 K92, R6=15 KO, RL=10 K2, V1=1V, 12=0.5mA and V3=2V....
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 K2,...
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 K2, R2=8 K12, R3=3.8 KS2, R4=6 KI2, R5=15 KS2, R6=3.8 KN, RL=9.8 K12, V1=1V, 12=0.5 mA and V3=2.2 V. } R6 R1 w R5 w + Vo + } RL 12 R2 V1 R3 R4 + +1 V3 Using the above circuit, but consider the following component values: R1= 2 KN R2=8 K2, R3=4.1 K12, R4=6 KI2, R5=17.0 K12, R6=15 KI, RL=10 KI, V1=1V, 12=0.5mA...
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 K12,...
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 K12, R2=8 KN, R3=3.9 KN, R4=6 KN, R5=18 K2, R6=4.4 KN, RL=12.5 KN, V1=1V, 12=0.5 mA and V3=3.4 V. R6 R1 R5 Vo + + RL R2 V1 R3 R4 + V3 Answer: LOV Using the above circuit, but consider the following component values: R1= 2 KO2 R2=8 K12, R3=3.6 K12, R4=6 K12, R5=16.9 KN, R6=15 KN, RL=10 KO, V1=1V, 12=0.5mA and V3=2V. What is...
The figure below shows an AC source, a transformer with a turns ratio of N1/N2 =...
The figure below shows an AC source, a transformer with a turns
ratio of
N1/N2 =
2.40, a source resistor RS,and a load
resistor RL.
A circuit contains an AC source, two resistors, and a
transformer composed of two coils. The transformer will bridge two
halves of an otherwise disjoint circuit. The left half of the
circuit starts on the left at the AC source labeled
ΔVS, goes up and to the right to a resistor
labeled RS, goes down...
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 KS,...
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 KS, R2=8 KN, R3=3.4 KA, R4=6 KN, R5=20 KN, R6=2.9 KN, RL=12.5 KN, V1=1V, 12=0.5 mA and V3=3.1 V. R6 R1 R5 VO + RL 12 R2 V1 R3 { R4 w V3 Answer: "V
Consider the electric circuit shown in the figure. Assume that the voltage of the battery is...
Consider the electric circuit shown in the figure. Assume that
the voltage of the battery is V = 23.5 V, and the resistors are
R1 = R2 = R3 = R4 =
R5 = 2.00 Ω.
What is the equivalent resistance of the circuit?
What is the electric current flowing through resistor
R3?
Consider the electri = R4 = R5 = 2.00 2 circuit shown in the figure. Assume that the voltage of the battery is V = 23.5 V,...
Transformer Parameter Extraction R2 N. Ideal Figure 5 Pre-Lab The equivalent circuit of a transformer can...
Transformer Parameter Extraction R2 N. Ideal Figure 5 Pre-Lab The equivalent circuit of a transformer can be represented as in Figure 5. 1. 2. 3. Provide the name of the tests to be done to extract the equivalent circuit parameters. Derive the equations needed to calculate the parameters. Get the equations and procedure checked by the TA
For Problems 13 to 14: Figure shows an ideal transformer. V = 100 cos(8t), N, =...
For Problems 13 to 14: Figure shows an ideal transformer. V = 100 cos(8t), N, = 40, N, = 8, R2 = 412 VAR Problem [13] <5 points> Calculate the magnitude of the flux Q . Problem [14] <5 points> Calculate the magnitude of the current 1, ·
QUESTION 2 [10 MARKS Assuming the op-amp circuit shown in Figure 2 to be ideal. Find...
QUESTION 2 [10 MARKS Assuming the op-amp circuit shown in Figure 2 to be ideal. Find the transfer function of the circuit. E,(s) [10 marks] G(s) R3 R1 A B R2 eo(t) e(t) C2 Figure 2 +
The AC circuit depicted in Figure E2.6 includes an ideal
transformer and operates at ?= 20 krad/sec.
Further, the circuit components are given as follows:
•Source: Is= 15?0? A(rms)
•Primary side: R_11= 10 R_12= 20? ,j?L_11 = j10?
•Secondary side:R_21= 100?, 1/j?C = variable reactance
•Turns ratio: 1:n = 1:5
(a) Derive the Thevenin equivalent of the driving circuit on the
primary side of the ideal transformer. Draw
the simplified circuit after transferring the impedance of the
secondary side to...
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 K2, R2=8 K2, R3=5.1 K2, R4=6 KN, R5=14 KN, R6=4.2 KS, RL=10.3 KS, V1=1V, 12=0.5 mA and V3=3.2 V. R6 R1 R5 Vo w + * RL + 12 R2 V1 R3 R4 V3 Answer: OV Using the above circuit, but consider the following component values: R1= 2 K12 R2=8 K2, R3=2.9 K2, R4=6 KI2, R5=10.8 K92, R6=15 KO, RL=10 K2, V1=1V, 12=0.5mA and V3=2V....
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Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 K12, R2=8 KN, R3=3.9 KN, R4=6 KN, R5=18 K2, R6=4.4 KN, RL=12.5 KN, V1=1V, 12=0.5 mA and V3=3.4 V. R6 R1 R5 Vo + + RL R2 V1 R3 R4 + V3 Answer: LOV Using the above circuit, but consider the following component values: R1= 2 KO2 R2=8 K12, R3=3.6 K12, R4=6 K12, R5=16.9 KN, R6=15 KN, RL=10 KO, V1=1V, 12=0.5mA and V3=2V. What is...
The figure below shows an AC source, a transformer with a turns
ratio of
N1/N2 =
2.40, a source resistor RS,and a load
resistor RL.
A circuit contains an AC source, two resistors, and a
transformer composed of two coils. The transformer will bridge two
halves of an otherwise disjoint circuit. The left half of the
circuit starts on the left at the AC source labeled
ΔVS, goes up and to the right to a resistor
labeled RS, goes down...
Assuming an ideal op-amp in the following circuit, find output voltage, Vo if R1= 2 KS, R2=8 KN, R3=3.4 KA, R4=6 KN, R5=20 KN, R6=2.9 KN, RL=12.5 KN, V1=1V, 12=0.5 mA and V3=3.1 V. R6 R1 R5 VO + RL 12 R2 V1 R3 { R4 w V3 Answer: "V
Consider the electric circuit shown in the figure. Assume that
the voltage of the battery is V = 23.5 V, and the resistors are
R1 = R2 = R3 = R4 =
R5 = 2.00 Ω.
What is the equivalent resistance of the circuit?
What is the electric current flowing through resistor
R3?
Consider the electri = R4 = R5 = 2.00 2 circuit shown in the figure. Assume that the voltage of the battery is V = 23.5 V,...
Transformer Parameter Extraction R2 N. Ideal Figure 5 Pre-Lab The equivalent circuit of a transformer can be represented as in Figure 5. 1. 2. 3. Provide the name of the tests to be done to extract the equivalent circuit parameters. Derive the equations needed to calculate the parameters. Get the equations and procedure checked by the TA
For Problems 13 to 14: Figure shows an ideal transformer. V = 100 cos(8t), N, = 40, N, = 8, R2 = 412 VAR Problem [13] <5 points> Calculate the magnitude of the flux Q . Problem [14] <5 points> Calculate the magnitude of the current 1, ·
QUESTION 2 [10 MARKS Assuming the op-amp circuit shown in Figure 2 to be ideal. Find the transfer function of the circuit. E,(s) [10 marks] G(s) R3 R1 A B R2 eo(t) e(t) C2 Figure 2 +
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