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30i. 25 ? 100 ? 160 v 10A ?? 10? Given: The current-controlled dependent voltage source...
4 2 8Ω 0.4% 8Ω 10 A Given: The circuit shown above has a voltage-controlled dependent...
4 2 8Ω 0.4% 8Ω 10 A Given: The circuit shown above has a voltage-controlled dependent current source with a transconductance of 0.4 S Required: Calculate the portion of the control voltage, Vb that is attributed to the independent voltage source. Also, calculate the portion of the control voltage, vb that is attributed to the independent current source Solution: Vbv V (due to the ind. voltage source) V (due to the ind. current source) Submit these values
current controlled voltage source 2i R2 V3 EV1 V2 R1 In the circuit above V1 =...
current controlled voltage source 2i R2 V3 EV1 V2 R1 In the circuit above V1 = 86V,V2=96 V, 11-7AR1:39 ? and R2 : 35 ?. Use nodal analysis to find the voltage at node A in the circuit above. Note the presence of a dependent voltage source V3 Voltage across that source is 2i. i is the current through the resistor R2 and the source V2
Lab 4-Circuits with Dependent Power Sources-A.pdf Lab Procedure: Part 1: Circuit with Dependent Voltage Source, Current...
Lab 4-Circuits with Dependent Power Sources-A.pdf Lab Procedure: Part 1: Circuit with Dependent Voltage Source, Current Controlled Enter the circuit below using Multisim Schematic capture and use Multisim Simulation for analysis node voltages and branch currents. Compare the Simulation results with the theoretical analysis results showing all calculations. Verify that KCL holds true at node 2 showing all work. Use Ohm's Law and/or KVL as needed for analysis. Comment on any differences in experimental versus theoretical results. 5k VI 4...
Problem 03.020 Nodal analysis: Independent voltage source and current dependent voltage source In the circuit given...
Problem 03.020 Nodal analysis: Independent voltage source and current dependent voltage source In the circuit given below, R-25 ?. Find v1, v2, and v3 using nodal analysis. 240 V 20i 20 ? 3 li 40? ": 10? The value of vy in the circuit is The value of v2 in the circuit is| |V The value of vy in the circuit isv V.
Learning Goal: To use the node-voltage method to solve circuits with branches containing only a voltage...
Learning Goal: To use the node-voltage method to solve circuits with branches containing only a voltage source. The node-voltage method is a general technique for solving circuits. Fundamentally, it involves writing KCL equations at essential nodes. When the circuit contains a dependent source, you must write a constraint equation for each dependent source, in addition to the KCL equations. When the circuit contains one or more voltage sources that are the only components in branches connecting two essential nodes, the...
Problem 03.031 - Nodal analysis: Independent voltage and current sources and dependent voltage and current sources...
Problem 03.031 - Nodal analysis: Independent voltage and current sources and dependent voltage and current sources In the circuit given below, R=5 . Find the node voltages. 122 + 1 41, 20% uz 2 1A {42 R 342 10 V The value of V4 is The value of v2 is The value of V3 is 5.40 v. 6.96 V 1.57 v.
E8.12 You are given an NMOS common-source amplifier with a current source supply as shown in...
E8.12 You are given an NMOS common-source amplifier with a current source supply as shown in Fig. E8.12. The device data is shown in the figure. (a) Find the value for Vbias so that Vout = 0 V when Isup = 100 ÞA. (b) Calculate the parameters Rin and Rour (c) Calculate the overall voltage gain. (d) Calculate the overall transconductance. (iour/v) +2.5 V WIL = 50/5 'sup V Th=1 V My Cox = 50 JA/V2 2n = 0.03 V-1...
Problem One (25 points) 300A. Determine the equivalent resistance as seen by the current source is...
Problem One (25 points) 300A. Determine the equivalent resistance as seen by the current source is in the circuit shown below. Show carefully each step of your solution process. B. Find the magnitude of the power delivered by the source in the circuit shown if current source is = 50 mA. OSA 100 150 12 w 75or SOL 5000 750 n 1kn 36000 250 12 3002 Velg Problem Two (25 points) v=l6 Consider the electrical circuit shown below. Suppose that...
This problem about Node Voltage Analysis was created especially for 25 A 0 V3701 v3752 06A...
This problem about Node Voltage Analysis was created especially for 25 A 0 V3701 v3752 06A Given: The circuit shown above. Required: Calculate the node voltages, V1 and V2.
For the circuit shown in Fig. 10-12, calculate the current supplied by the voltage source and...
For the circuit shown in Fig. 10-12, calculate the current supplied by the voltage source and the voltage across the current source. V, 500 2.8345° A 1 3:25 n 100/0° v Fig. 10-12
4 2 8Ω 0.4% 8Ω 10 A Given: The circuit shown above has a voltage-controlled dependent current source with a transconductance of 0.4 S Required: Calculate the portion of the control voltage, Vb that is attributed to the independent voltage source. Also, calculate the portion of the control voltage, vb that is attributed to the independent current source Solution: Vbv V (due to the ind. voltage source) V (due to the ind. current source) Submit these values
current controlled voltage source 2i R2 V3 EV1 V2 R1 In the circuit above V1 = 86V,V2=96 V, 11-7AR1:39 ? and R2 : 35 ?. Use nodal analysis to find the voltage at node A in the circuit above. Note the presence of a dependent voltage source V3 Voltage across that source is 2i. i is the current through the resistor R2 and the source V2
Lab 4-Circuits with Dependent Power Sources-A.pdf Lab Procedure: Part 1: Circuit with Dependent Voltage Source, Current Controlled Enter the circuit below using Multisim Schematic capture and use Multisim Simulation for analysis node voltages and branch currents. Compare the Simulation results with the theoretical analysis results showing all calculations. Verify that KCL holds true at node 2 showing all work. Use Ohm's Law and/or KVL as needed for analysis. Comment on any differences in experimental versus theoretical results. 5k VI 4...
Problem 03.020 Nodal analysis: Independent voltage source and current dependent voltage source In the circuit given below, R-25 ?. Find v1, v2, and v3 using nodal analysis. 240 V 20i 20 ? 3 li 40? ": 10? The value of vy in the circuit is The value of v2 in the circuit is| |V The value of vy in the circuit isv V.
Learning Goal: To use the node-voltage method to solve circuits with branches containing only a voltage source. The node-voltage method is a general technique for solving circuits. Fundamentally, it involves writing KCL equations at essential nodes. When the circuit contains a dependent source, you must write a constraint equation for each dependent source, in addition to the KCL equations. When the circuit contains one or more voltage sources that are the only components in branches connecting two essential nodes, the...
Problem 03.031 - Nodal analysis: Independent voltage and current sources and dependent voltage and current sources In the circuit given below, R=5 . Find the node voltages. 122 + 1 41, 20% uz 2 1A {42 R 342 10 V The value of V4 is The value of v2 is The value of V3 is 5.40 v. 6.96 V 1.57 v.
E8.12 You are given an NMOS common-source amplifier with a current source supply as shown in Fig. E8.12. The device data is shown in the figure. (a) Find the value for Vbias so that Vout = 0 V when Isup = 100 ÞA. (b) Calculate the parameters Rin and Rour (c) Calculate the overall voltage gain. (d) Calculate the overall transconductance. (iour/v) +2.5 V WIL = 50/5 'sup V Th=1 V My Cox = 50 JA/V2 2n = 0.03 V-1...
Problem One (25 points) 300A. Determine the equivalent resistance as seen by the current source is in the circuit shown below. Show carefully each step of your solution process. B. Find the magnitude of the power delivered by the source in the circuit shown if current source is = 50 mA. OSA 100 150 12 w 75or SOL 5000 750 n 1kn 36000 250 12 3002 Velg Problem Two (25 points) v=l6 Consider the electrical circuit shown below. Suppose that...
This problem about Node Voltage Analysis was created especially for 25 A 0 V3701 v3752 06A Given: The circuit shown above. Required: Calculate the node voltages, V1 and V2.
For the circuit shown in Fig. 10-12, calculate the current supplied by the voltage source and the voltage across the current source. V, 500 2.8345° A 1 3:25 n 100/0° v Fig. 10-12
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