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1. Under dc conditions, for Figure 1 (a) Calculate the voltages v1
and v2 of the...
P5.6 Calculate the DC voltages V1-V6 in the circuit of Fig. P5.6 under the assumption that...
P5.6
Calculate the DC voltages V1-V6 in the circuit of Fig. P5.6
under the assumption that β = 100 for the NPN and PNP BJTs.
P5.6 Calculate the DC voltages V-V in the circuit of Fig. P5.6 under the assumption that B = 100 for the NPN and PNP BJTs. 110V 10V 1 34.7k12 10V 5.160 L V2 LK Q2 VA V3م 32 Love Q3 V. 33k2 Lovs 1.3k2 34.751 -10V -10V Fig. P5.6. Circuit with 2 NPN transistors and...
1. V1 and V2 are voltage sources with voltages of 0.5 V and 1.2 V respectively....
1. V1 and V2 are voltage sources with voltages of 0.5 V and 1.2 V respectively. Show a single op amp circuit that uses these sources to produce a voltage of -3 V. More than two resistors can be used, but use only two values of resistance in the circuit.
Determine voltages v, to v in the circuit under DC conditions 2 6Ω 02 20 μF...
Determine voltages v, to v in the circuit under DC conditions 2 6Ω 02 20 μF 3Ω 18 2 40 V(+ 4 2
Problemuǐ(30 points) Consider the circuit in Figure 1 1Ω 4A Figure I. DC resistive circuit Submit...
Problemuǐ(30 points) Consider the circuit in Figure 1 1Ω 4A Figure I. DC resistive circuit Submit these Numerical Values in the Answer Sheet 5 points:IA 5 points: IA 5 points:VV 5 points: V.V 5 points : Power of the 2 Ω resistor Li 5 points: Power of the current source [W 1.a : Use KCL, KVL, and Ohm's Law to calculate 1 [AJ. I2 IA]. V1 IV] and V2 [V] 工 20-120 A 112 2. L.b: Verify your results by...
Consider the network of Fig Pl.1. (a) 1. Label all node voltages and branch (b) Use the principle of superposition to (c) Determine the voltages v, V2, and v;3 i, l 80 Ω 50cos2000t V currents....
Consider the network of Fig Pl.1. (a) 1. Label all node voltages and branch (b) Use the principle of superposition to (c) Determine the voltages v, V2, and v;3 i, l 80 Ω 50cos2000t V currents. 100 Ω 40 mHv, compute the currents io, il, i2, i3, and 4. + 24 v (d) Determine the power from the three S602 sources in the circuit
Consider the network of Fig Pl.1. (a) 1. Label all node voltages and branch (b) Use...
4. Consider the common-emitter amplifier of Figure 5. Draw the dc circuit and find ICQ. Draw the dc circuit and find IC...
4. Consider the common-emitter amplifier of Figure 5. Draw the dc circuit and find ICQ. Draw the dc circuit and find ICQ. Find the value of Then, calculate values for Voltage gain Av, Open circuit voltage gain Avoc, input impedance Zin, current gain Ai, power gain G, and out- put impedance Zo. Assume operation in the frequency range for which influence of coupling and bypass capacitors can be ignored +15 V +15 V B 100 100 Ω 47ka Figure 5...
1. Consider this circuit with resistors and capacitors. The R2 battery V1 has a voltage of...
1. Consider this circuit with resistors and capacitors. The R2 battery V1 has a voltage of 9 V, the resistors R1 and R2 have values of 100 Ω and 50 Ω, and the capacitor C1 has a value of 100 nF. Initially, the switches S1 and S2 are open. S2 (10 points) Once we close S1, what will the voltage across Rl and Cl be? How much current initially flows around the closed loop? (10 points) The current in part...
i dont undersrand how to calculate the values from measured data? 2. Turn on the DC...
i dont undersrand how to calculate the values from measured
data?
2. Turn on the DC power supply, measure its output voltage with DMM2 and record it as measured data Vs in Table 6. 3. Use DMM2 to measure the voltages V, V2.V. Va across R R. RR respectively. Use DMMI to measure the current Is (notice: Is=1= 12 + 1,-1). Record the measured values of I, and V., V2, V3. V4 in Table 6. 4. Turn off the DC...
1. For the circuit shown in figure P-01, determine a. Coupling coefficient of coupled inductors! b. The voltage, Vx as shown in the circuit! C. Energy stored inside the coupled inductors! ML 2Ω Fi...
1. For the circuit shown in figure P-01, determine a. Coupling coefficient of coupled inductors! b. The voltage, Vx as shown in the circuit! C. Energy stored inside the coupled inductors! ML 2Ω Figure P-01 2. For the ideal transformer circuit shown in figure P-02, determine a. Primary and secondary currents, Ii and I2! b. Primary and secondary voltages, Yi and V2! C. Complex power supplied by the source 1, 2Ω 1:2 6090V ms svo 12Ω Figure P-02
1. For...
Reference the circuit shown below. (Assume V1=100V and V2=160V) A) Calculate the resistance of R. B)...
Reference the circuit shown below. (Assume V1=100V and
V2=160V)
A) Calculate the resistance of R.
B)
Calculate the current through the 40 Ω resistor. (Assume that
the batteries have no internal resistance.)
C) Calculate the power supplied by the 160 V battery. (Assume
that the batteries have no internal resistance.)
40 Ω i = 10A 2012
P5.6
Calculate the DC voltages V1-V6 in the circuit of Fig. P5.6
under the assumption that β = 100 for the NPN and PNP BJTs.
P5.6 Calculate the DC voltages V-V in the circuit of Fig. P5.6 under the assumption that B = 100 for the NPN and PNP BJTs. 110V 10V 1 34.7k12 10V 5.160 L V2 LK Q2 VA V3م 32 Love Q3 V. 33k2 Lovs 1.3k2 34.751 -10V -10V Fig. P5.6. Circuit with 2 NPN transistors and...
1. V1 and V2 are voltage sources with voltages of 0.5 V and 1.2 V respectively. Show a single op amp circuit that uses these sources to produce a voltage of -3 V. More than two resistors can be used, but use only two values of resistance in the circuit.
Determine voltages v, to v in the circuit under DC conditions 2 6Ω 02 20 μF 3Ω 18 2 40 V(+ 4 2
Problemuǐ(30 points) Consider the circuit in Figure 1 1Ω 4A Figure I. DC resistive circuit Submit these Numerical Values in the Answer Sheet 5 points:IA 5 points: IA 5 points:VV 5 points: V.V 5 points : Power of the 2 Ω resistor Li 5 points: Power of the current source [W 1.a : Use KCL, KVL, and Ohm's Law to calculate 1 [AJ. I2 IA]. V1 IV] and V2 [V] 工 20-120 A 112 2. L.b: Verify your results by...
Consider the network of Fig Pl.1. (a) 1. Label all node voltages and branch (b) Use the principle of superposition to (c) Determine the voltages v, V2, and v;3 i, l 80 Ω 50cos2000t V currents. 100 Ω 40 mHv, compute the currents io, il, i2, i3, and 4. + 24 v (d) Determine the power from the three S602 sources in the circuit
Consider the network of Fig Pl.1. (a) 1. Label all node voltages and branch (b) Use...
4. Consider the common-emitter amplifier of Figure 5. Draw the dc circuit and find ICQ. Draw the dc circuit and find ICQ. Find the value of Then, calculate values for Voltage gain Av, Open circuit voltage gain Avoc, input impedance Zin, current gain Ai, power gain G, and out- put impedance Zo. Assume operation in the frequency range for which influence of coupling and bypass capacitors can be ignored +15 V +15 V B 100 100 Ω 47ka Figure 5...
1. Consider this circuit with resistors and capacitors. The R2 battery V1 has a voltage of 9 V, the resistors R1 and R2 have values of 100 Ω and 50 Ω, and the capacitor C1 has a value of 100 nF. Initially, the switches S1 and S2 are open. S2 (10 points) Once we close S1, what will the voltage across Rl and Cl be? How much current initially flows around the closed loop? (10 points) The current in part...
i dont undersrand how to calculate the values from measured
data?
2. Turn on the DC power supply, measure its output voltage with DMM2 and record it as measured data Vs in Table 6. 3. Use DMM2 to measure the voltages V, V2.V. Va across R R. RR respectively. Use DMMI to measure the current Is (notice: Is=1= 12 + 1,-1). Record the measured values of I, and V., V2, V3. V4 in Table 6. 4. Turn off the DC...
1. For the circuit shown in figure P-01, determine a. Coupling coefficient of coupled inductors! b. The voltage, Vx as shown in the circuit! C. Energy stored inside the coupled inductors! ML 2Ω Figure P-01 2. For the ideal transformer circuit shown in figure P-02, determine a. Primary and secondary currents, Ii and I2! b. Primary and secondary voltages, Yi and V2! C. Complex power supplied by the source 1, 2Ω 1:2 6090V ms svo 12Ω Figure P-02
1. For...
Reference the circuit shown below. (Assume V1=100V and
V2=160V)
A) Calculate the resistance of R.
B)
Calculate the current through the 40 Ω resistor. (Assume that
the batteries have no internal resistance.)
C) Calculate the power supplied by the 160 V battery. (Assume
that the batteries have no internal resistance.)
40 Ω i = 10A 2012
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