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roblem 5i Consider the circuit with an ideal transformer shown in Figure 5. 1:2 820 16...
Palred Quiz) 3 For ideal transformer as shown in figure P.3, determine: a. The currents I1,...
Palred Quiz) 3 For ideal transformer as shown in figure P.3, determine: a. The currents I1, I2 and I3! b. The primary and secondary voltage Vu V, Vg and Va C. The complex power supplied by the source! d. The effective power dissipated by the load impedance, Zioad 812-20 Ω 1:3 18 Ω Zload 40200 v ( 45 Figure P.3 Ideal Transformer Circuit
Consider the circuit shown in (Figure 1). Assume that the diodes are ideal.
Consider the circuit shown in (Figure 1). Assume that the diodes are ideal. Part ASketch the transfer characteristic v, versus Vin for the circuit shown in (Figure 1). Allow Vin to range from -10 V to +10 V. Plot the points for the values of Vin that are separated by the step ΔVin = 5 V.
Problem E1.2.6 (20 points) Consider the magntically coupled circuit that involves an ideal transformer as depicted...
Problem E1.2.6 (20 points) Consider the magntically coupled circuit that involves an ideal transformer as depicted in Figure E1.2.6. The sinusoidal voltage source frequency is 20 x 103 (rad/sec). The load connected to the secondary winding (RHS of the ideal transformer) consists of a variable resistor R in series with a variable capacitor C. (a) Find the values of R and C for maximum power transfer from the voltage source in the primary winding. (b) What is the maximum average...
2. A circuit with an ideal ransibrmer is shown in Figure. The voltage source 100v2sin(1000t) v.,...
2. A circuit with an ideal ransibrmer is shown in Figure. The voltage source 100v2sin(1000t) v., and R100 2, C 8 F and L 2 H. e(t) (a) Draw an equivalent circuit referred to the source side (b) Determine the turns ratio a = maximum; such that the current rms value I can reach the (c) Find the output voltage phasor L across C in the case of (b). R L IA M e
1. Consider the system shown in Figure 1 below. Ideal Ideal y(t) Sample period T Sample period T ...
please help as soon as possible
1. Consider the system shown in Figure 1 below. Ideal Ideal y(t) Sample period T Sample period T Figure 1. System for Problem 1. The input to the above system is x(), the output is y), and the sampling period for both the ideal A/D and ideal D/A is T>0. For your answers to the various parts below, be sure to include appropriate units, where applicable. a) Suppose that x(t)-5. Determine all numerical values...
1. Consider the circuit shown in figure 1. Vs-5 Volts, 1A (a) Ure mesh yurrent analysis...
1. Consider the circuit shown in figure 1. Vs-5 Volts, 1A (a) Ure mesh yurrent analysis to determine the values of the currents to Is and by Also determine the voltage V (b) Use node voltage analysis to determine the values of the mode voltages V. V Also determine the voltage V and V 20 ৩২
1. Consider the system shown in Figure 1 below. Ideal Ideal r(t) Sample period Sample period...
1. Consider the system shown in Figure 1 below. Ideal Ideal r(t) Sample period Sample period T Figure 1. System for Problem 1. The input to the above system is x(), the output is y(), and the sampling period for both the ideal A/D and ideal D/A is T>0. For your answers to the various pa be sure to include appropriate units, where applicable. rts below., Suppose that x(1) Justify your answer. a) 5. Determine all numerical values of T...
please do all parts of both questions thanks 5. (10 points) For the circuit shown in...
please do all parts of both questions thanks
5. (10 points) For the circuit shown in Figure 2, compute the voltage across the load terminals. *Tip: use KVL 0.19 0.52 1 = 60/A 120/0° v VLOND LOAD Figure 2. Circuit for problem 5. 6. (15 points) A 60-Hz, single-phase source with V = 277230°volts is applied to a circuit element (a) Determine the instantaneous source voltage (b) Also determine the phasor and instantaneous currents entering the positive terminal if the...
Problem 3 Consider a three-winding transformer, as shown in Figure (2.) with the following particulars: Zp=0.025+j0.08...
Problem 3 Consider a three-winding transformer, as shown in Figure (2.) with the following particulars: Zp=0.025+j0.08 V =410 Zs= 0.025+j 0.07 12=55/-30° Z= 0.025+ 0.08 13=45/-40° Assume that V1 is the reference, calculate: (a) The primary current 1: [5 points] (b) The intermediate voltage Vo [5 points) (c) The secondary voltage V2 and tertiary voltage V3 referred to the primary side. [5 points] (d) The apparent powers and power factors at the primary, secondary and tertiary terminals. [5 points) (e)...
please take y = 4 5. For the circuit given in Figure 5, a) Calculate the...
please take y = 4
5. For the circuit given in Figure 5, a) Calculate the equivalent load impedance seen by the voltage source (reflected from secondary to primary). b) Calculate the primary current and voltage of the transformer. c) Calculate the secondary current and voltage of the transformer. Here, Rư= The largest value of the last 3 digits of your school number. Lı = The smallest value of the last 3 digits of your school number. If the smallest...
Palred Quiz) 3 For ideal transformer as shown in figure P.3, determine: a. The currents I1, I2 and I3! b. The primary and secondary voltage Vu V, Vg and Va C. The complex power supplied by the source! d. The effective power dissipated by the load impedance, Zioad 812-20 Ω 1:3 18 Ω Zload 40200 v ( 45 Figure P.3 Ideal Transformer Circuit
Problem E1.2.6 (20 points) Consider the magntically coupled circuit that involves an ideal transformer as depicted in Figure E1.2.6. The sinusoidal voltage source frequency is 20 x 103 (rad/sec). The load connected to the secondary winding (RHS of the ideal transformer) consists of a variable resistor R in series with a variable capacitor C. (a) Find the values of R and C for maximum power transfer from the voltage source in the primary winding. (b) What is the maximum average...
2. A circuit with an ideal ransibrmer is shown in Figure. The voltage source 100v2sin(1000t) v., and R100 2, C 8 F and L 2 H. e(t) (a) Draw an equivalent circuit referred to the source side (b) Determine the turns ratio a = maximum; such that the current rms value I can reach the (c) Find the output voltage phasor L across C in the case of (b). R L IA M e
please help as soon as possible
1. Consider the system shown in Figure 1 below. Ideal Ideal y(t) Sample period T Sample period T Figure 1. System for Problem 1. The input to the above system is x(), the output is y), and the sampling period for both the ideal A/D and ideal D/A is T>0. For your answers to the various parts below, be sure to include appropriate units, where applicable. a) Suppose that x(t)-5. Determine all numerical values...
1. Consider the circuit shown in figure 1. Vs-5 Volts, 1A (a) Ure mesh yurrent analysis to determine the values of the currents to Is and by Also determine the voltage V (b) Use node voltage analysis to determine the values of the mode voltages V. V Also determine the voltage V and V 20 ৩২
1. Consider the system shown in Figure 1 below. Ideal Ideal r(t) Sample period Sample period T Figure 1. System for Problem 1. The input to the above system is x(), the output is y(), and the sampling period for both the ideal A/D and ideal D/A is T>0. For your answers to the various pa be sure to include appropriate units, where applicable. rts below., Suppose that x(1) Justify your answer. a) 5. Determine all numerical values of T...
please do all parts of both questions thanks
5. (10 points) For the circuit shown in Figure 2, compute the voltage across the load terminals. *Tip: use KVL 0.19 0.52 1 = 60/A 120/0° v VLOND LOAD Figure 2. Circuit for problem 5. 6. (15 points) A 60-Hz, single-phase source with V = 277230°volts is applied to a circuit element (a) Determine the instantaneous source voltage (b) Also determine the phasor and instantaneous currents entering the positive terminal if the...
Problem 3 Consider a three-winding transformer, as shown in Figure (2.) with the following particulars: Zp=0.025+j0.08 V =410 Zs= 0.025+j 0.07 12=55/-30° Z= 0.025+ 0.08 13=45/-40° Assume that V1 is the reference, calculate: (a) The primary current 1: [5 points] (b) The intermediate voltage Vo [5 points) (c) The secondary voltage V2 and tertiary voltage V3 referred to the primary side. [5 points] (d) The apparent powers and power factors at the primary, secondary and tertiary terminals. [5 points) (e)...
please take y = 4
5. For the circuit given in Figure 5, a) Calculate the equivalent load impedance seen by the voltage source (reflected from secondary to primary). b) Calculate the primary current and voltage of the transformer. c) Calculate the secondary current and voltage of the transformer. Here, Rư= The largest value of the last 3 digits of your school number. Lı = The smallest value of the last 3 digits of your school number. If the smallest...
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