2. For the circuit of Fig. the source is sinusoid of 120 Vrms at a frequency...
clear handwrite and step by step solution please thank you in advance Q2. For the single-phase voltage controller of Fig. 2, the source is 120 Vrms at 60 Hz, andthe load is a series Rしcombination with R-20 Ω and L-50 mH. The delay angle α is 90°. Determine (a) an expression for load current for the first half-period, b) the rms loadcurrent, (c) the rms SCR current, (d) the average SCR current, (e) the power delivered tothe load, and (f)...
The input sinusoid has a 1 V amplitude and 5,000 Hz frequency. Analyze the circuit of Figure to determine, for each value of R_L. Use the given values and answer questions a-g. Please show work. V. Load Figure 2 Using Figure 2 Calculate for the questions a-g using the values given of R_T. RLand inductor resistance values for the parameters in the circuit of Figure 2.ee . 1.00-12.000 es the input sinusold her a IV.,amplitude and a Se frequency) ....
1. The following half-wave rectifier circuit has a 120-Vrms source at 60-Hz, R-500-2, and C-100-uF. Determine: a) An expression for the output voltage. b) The peak-to-peak voltage variation on the output. c) An expression for capacitor current. d) The peak diode current. e) Confirm your answers through OrCAD solution. Display all graphs and tabulate the results ID IR le Vs Vm Sin(wt) R. T100 Vo soon
Consider the single-phase full-wave rectifier circuit shown below with a sinusoidal input vs 120 Vrms at 60 Hz and a load R= 250 TiD DAZ 40 AD AD ww D (a) (b) Consider adding a filter capacitor to the full-wave rectifier in Problem 3 to reduce the output ripple (a) Calculate the minimum value of capacitance required to reduce the output voltage ripple to 1 % of the average value (b) Calculate the average output current (c) Calculate the average...
3.12 Consider a source terminal connected to a power electronic circuit whose current and voltage waveforms are shown in Fig. P3.12, with t-4us and T-10us. (a) Calculate the average and rms source current and source voltage values (b) Caleulate the average input power Power Electronic Circuit -18A 4-12A Fig、 P3.12
Determine the power factor of the total load served by the voltage source. 120 VRMS 816 - j246 VA || 400 +j810 VA
9) The voltage V in the frequency-domain circuit shown in Fig. P10.18 is 240/0°V (rms) a) Find the average and reactive power for the voltage source. average power? magnetizing vars? with each impedance branch in the circuit. absorbed average power. absorbed magnetizing vars. b) Is the voltage source absorbing or delivering c) Is the voltage source absorbing or delivering d) Find the average and reactive powers associated e) Check the balance between delivered and f) Check the balance between delivered...
In the circuit of Figure E5.1 (same as Fig. 5.1(a)), let Vs = 150 Volts, f = 60 Hz, R = 5 Ohms, XL = oL = (21f)L = 5 Ohms. P.1 Calculate the rms output voltage (Vor), the rms output current (Ior) and the output active power (rms). Use only the first and third harmonics of the output voltage and current. P.2 Calculate the load current at the instant of commutation. P.3 Calculate the diode conduction time. P.4 Draw...
Can you solve the 3 questions using the posted figure? The wave form figure is Fig P3-3. The equations for 3-4 are attached too. Thank you For the waveforms in Fig. P3-3, calculate their average value and the rms values of the fundamental and the harmonic frequency components. 3-3 34 In the waveforms of Fig. P3-3 of Problem 3-3, A = 10 and u = 20° (14 = u2-u/2), where applicable. Calculate their total rms values as follows: (a) By...
FIND E), F),G) A three-phase bridge rectifier is shown here. The secondary's phase voltages are: Van (t) = Vm sin (wt), Vbn (t) = Vm sin (ot - 120°), and Ven (t) = Vm sin (ot - 240°), and the corresponding line-to-line voltages are: Vab = V3Vm sin(ot+30°), Vhc = V3Vm sin(ot - 90°), and Vca = V3Vm sin(ot - 210'), where Vm is the peak voltage. Plot the three phase voltages and the three line-to-line voltages. MATLAB is a...