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Due Date: 10/27/2019 EHB211E Basics of Electrical Circuits HOMEWORK 2 For the PSpice solutions, provide the...
Problem 5.36 PSpice|Multisim The signal voltage vg in the circuit shown in (Figure 1) is described...
Problem 5.36 PSpice|Multisim
The signal voltage vg in the circuit shown in
(Figure 1) is described by the following equations:
vg=0, t≤0,
vg=4cos(π4t)V,
0≤t≤∞.
Problem 5.36 PSpicelMultisim The signal voltage vg in the circuit shown in (Figure 1) is described by the following equations: v 0, t S0, va 4 cos T t V, 0 S t S oo. Figure 1 of 1 20 kn 60 kn 10V 1.8 km 100 V vo 5 kn 5.4 km Part A Choose...
Please Help. This is a PSPICE Simulation problem. Thanks. Equipment For the laboratory experimentation, the standard...
Please Help. This is a PSPICE Simulation problem. Thanks.
Equipment For the laboratory experimentation, the standard laboratory equipment (function generator, oscilloscope, multimeter) will be used along with a capacitor (0.027 μF), an inductor (10 mH for the series RLC circuit and 1 mH for the parallel RLC circuit), and a resistor (to be determined in your prelab work) Lab 4 PSPICE Simulation: Using the circuit parameter values given in the prelab, model the circuits given in Fig. 1 using PSPICE....
Solve each practice problem. TYPE solutions in engineering notation TYPE solutions in engineering notation. Calcula...
Solve each practice problem. TYPE solutions in
engineering notation
TYPE solutions in engineering
notation.
Calculate the component voltages and branch currents for the circuit shown in Figure 6.40, along with the values of I, and Rr. 3. R3 2 kn R4 4.7 k R1 10 k Vs 26 V R5 3.3 k R2 3 kn FIGURE 6.40 Calculate the component currents and loop voltages for the circuit shown in Figure 6.42, along with the values of I and Rr 5....
PLEASE SHOW ALL WORK AND TO USE PSPICE AND FOLLOW ALL DIRECTIONS. STUDENT ID=378564 Assignment: 1....
PLEASE SHOW ALL WORK AND TO USE PSPICE AND FOLLOW ALL
DIRECTIONS.
STUDENT ID=378564
Assignment: 1. For the Circuit 1 shown below: A. Analyze the circuit by hand as described in the textbook. B. Analyze the circuit using PSPICE as follows: Use a Bias Point analysis to find the quantities found in part A above. Be sure to add text to the schematic as indicated in the Sample Report. Adjust the placement of each value on the schematic so that...
PLEASE SHOW ALL WORK AND TO FOLLOW DIRECTIONS. PLEASE USE PSPICE. STUDENT ID= 7220849 2. Using...
PLEASE SHOW ALL WORK AND TO FOLLOW DIRECTIONS. PLEASE USE
PSPICE.
STUDENT ID= 7220849
2. Using a DC Sweep analysis to generate a table of values in the .OUT file: See Circuit 2 below: Let R1 through R6 equivalent to the digits 1 through 6 in your StudentID in k12 (use 10 k22 for a digit of 0). • For example, if your StudentID is 9870654 then R1 =9 kN, R2 =8 kN, R3 = 7kN, R4 = 10KN, R5...
Q1. The values of the difference amplifier in figure 1 are Ao 5x 105, Rı =...
Q1. The values of the difference amplifier in figure 1 are Ao 5x 105, Rı = 5kQ, RF = 50M, Ra-2kQ, and Rx-20kS2. The input voltages are vb-5mV and Va--15mV. Find the out voltage vo. (5 Points) RF R1 Figure 1 Q2. Design an integrator as shown in figure 2 to be operated with an AC signal of 5 kHz and to give a closed loop voltage gain of Af-10 at w=1 rad/s. (5 Points) iRF RI 79 +Vcc 2...
done on pspice thank you Part IV: Diode Rectifiers Procedure: 1. Build the circuit model for...
done on pspice thank you
Part IV: Diode Rectifiers Procedure: 1. Build the circuit model for full-wave diode rectifier in PSpice as shown in Fig. 4. The value of the load resistor is 10 k22. The input AC voltage source (VSIN in PSpice) is configured at 100 Hz and 20 V (peak-to- peak) in sinusoidal waveform. O 10K V.(t) V(A) A Figure 4. Circuit configuration for full-wave diode rectifier 2. Run the simulation and save the input and output voltage...
please show steps, and solve asap BEE 433 Electronic Circuit Design Problem Set #1 Due date:...
please show steps, and solve asap
BEE 433 Electronic Circuit Design Problem Set #1 Due date: Answer the following problems and Circle the answers. 1.1 (Fig. 1.1 from the textbook) In the voltage amplifier circuit of Fig. 1.1, let vs = 100 mV, Rs = 100 k 52, Vi = 75 mV, RL = 10 S2, and vo = 2 V. If connecting a 30-S2 resistance in parallel with RL drops vo to 1.8 V, find Ri, A., and R....
PLEASE SHOW ALL WORK AND TO FOLLOW ALL DIRECTIONS. PLEASE USE PSPICE. Assignment 1. Using a...
PLEASE SHOW ALL WORK AND TO FOLLOW ALL DIRECTIONS. PLEASE USE
PSPICE.
Assignment 1. Using a DC Sweep analysis to analyze a circuit: Use the circuit below. A. Analyze the circuit by hand (find Va and is only). B. Analyze the circuit using PSPICE as follows: Use a DC Sweep analysis to find the quantities found in part A above. Include a voltage printer and a current printer to measure the quantities specified. Do not use a Bias Point analysis...
c) In estimating DC imperfections (input offset voltage, input offset current and the inverting amplifier with...
c) In estimating DC imperfections (input offset voltage, input offset current and the inverting amplifier with nominal gain of -100 using 1 current) of an op-map, an and 10MQ resistors is implemented using the op-amp as shown in Fig 2(a) below R2 10MQ R 100k Vi Vo Figure 2(a): Inverting amplifier Measurements are conducted on the output voltage of the inverting amplifier under the following conditions: (i) the input (V) is open circuited and the output voltage is found to...
Problem 5.36 PSpice|Multisim
The signal voltage vg in the circuit shown in
(Figure 1) is described by the following equations:
vg=0, t≤0,
vg=4cos(π4t)V,
0≤t≤∞.
Problem 5.36 PSpicelMultisim The signal voltage vg in the circuit shown in (Figure 1) is described by the following equations: v 0, t S0, va 4 cos T t V, 0 S t S oo. Figure 1 of 1 20 kn 60 kn 10V 1.8 km 100 V vo 5 kn 5.4 km Part A Choose...
Please Help. This is a PSPICE Simulation problem. Thanks.
Equipment For the laboratory experimentation, the standard laboratory equipment (function generator, oscilloscope, multimeter) will be used along with a capacitor (0.027 μF), an inductor (10 mH for the series RLC circuit and 1 mH for the parallel RLC circuit), and a resistor (to be determined in your prelab work) Lab 4 PSPICE Simulation: Using the circuit parameter values given in the prelab, model the circuits given in Fig. 1 using PSPICE....
Solve each practice problem. TYPE solutions in
engineering notation
TYPE solutions in engineering
notation.
Calculate the component voltages and branch currents for the circuit shown in Figure 6.40, along with the values of I, and Rr. 3. R3 2 kn R4 4.7 k R1 10 k Vs 26 V R5 3.3 k R2 3 kn FIGURE 6.40 Calculate the component currents and loop voltages for the circuit shown in Figure 6.42, along with the values of I and Rr 5....
PLEASE SHOW ALL WORK AND TO USE PSPICE AND FOLLOW ALL
DIRECTIONS.
STUDENT ID=378564
Assignment: 1. For the Circuit 1 shown below: A. Analyze the circuit by hand as described in the textbook. B. Analyze the circuit using PSPICE as follows: Use a Bias Point analysis to find the quantities found in part A above. Be sure to add text to the schematic as indicated in the Sample Report. Adjust the placement of each value on the schematic so that...
PLEASE SHOW ALL WORK AND TO FOLLOW DIRECTIONS. PLEASE USE
PSPICE.
STUDENT ID= 7220849
2. Using a DC Sweep analysis to generate a table of values in the .OUT file: See Circuit 2 below: Let R1 through R6 equivalent to the digits 1 through 6 in your StudentID in k12 (use 10 k22 for a digit of 0). • For example, if your StudentID is 9870654 then R1 =9 kN, R2 =8 kN, R3 = 7kN, R4 = 10KN, R5...
Q1. The values of the difference amplifier in figure 1 are Ao 5x 105, Rı = 5kQ, RF = 50M, Ra-2kQ, and Rx-20kS2. The input voltages are vb-5mV and Va--15mV. Find the out voltage vo. (5 Points) RF R1 Figure 1 Q2. Design an integrator as shown in figure 2 to be operated with an AC signal of 5 kHz and to give a closed loop voltage gain of Af-10 at w=1 rad/s. (5 Points) iRF RI 79 +Vcc 2...
done on pspice thank you
Part IV: Diode Rectifiers Procedure: 1. Build the circuit model for full-wave diode rectifier in PSpice as shown in Fig. 4. The value of the load resistor is 10 k22. The input AC voltage source (VSIN in PSpice) is configured at 100 Hz and 20 V (peak-to- peak) in sinusoidal waveform. O 10K V.(t) V(A) A Figure 4. Circuit configuration for full-wave diode rectifier 2. Run the simulation and save the input and output voltage...
please show steps, and solve asap
BEE 433 Electronic Circuit Design Problem Set #1 Due date: Answer the following problems and Circle the answers. 1.1 (Fig. 1.1 from the textbook) In the voltage amplifier circuit of Fig. 1.1, let vs = 100 mV, Rs = 100 k 52, Vi = 75 mV, RL = 10 S2, and vo = 2 V. If connecting a 30-S2 resistance in parallel with RL drops vo to 1.8 V, find Ri, A., and R....
PLEASE SHOW ALL WORK AND TO FOLLOW ALL DIRECTIONS. PLEASE USE
PSPICE.
Assignment 1. Using a DC Sweep analysis to analyze a circuit: Use the circuit below. A. Analyze the circuit by hand (find Va and is only). B. Analyze the circuit using PSPICE as follows: Use a DC Sweep analysis to find the quantities found in part A above. Include a voltage printer and a current printer to measure the quantities specified. Do not use a Bias Point analysis...
c) In estimating DC imperfections (input offset voltage, input offset current and the inverting amplifier with nominal gain of -100 using 1 current) of an op-map, an and 10MQ resistors is implemented using the op-amp as shown in Fig 2(a) below R2 10MQ R 100k Vi Vo Figure 2(a): Inverting amplifier Measurements are conducted on the output voltage of the inverting amplifier under the following conditions: (i) the input (V) is open circuited and the output voltage is found to...
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