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
Can you solve the 3 questions using the posted figure? The wave form figure is Fig...
3. (30% ) The voltage and current at the terminals of a load circuit are given by: )=1202 sin(ar) V i ()=812 sin(ar-60)+6/2 sin(Bax -120) A (V) and (A). (a) Find (b) Find the real (average) power P delivered to the load. (c) The distortion factor of the current waveform. (e) Find the displacement power factor DPF for this circuit. (f) Find the power factor of the load. (g) Is the load linear? 3. (30% ) The voltage and current...
Question 1 (a) Draw the actual OR the idealized i-v characteristics of a MOSFET. Propery label the drawn graph. [4 marks] (b) Name any two types of diodes AND any two types of thyristors. [4 marks] (c) Find the following values for the periodic current output of a diode rectifier with square voltage input and resistive load. The output is shown in the figure below. (i) Average (ii) Root mean square (RMS) (ii) RMS of the 1st harmonic (iv) Total...
3-3 For the waveforms in Fig. P3-3, calculate their average value and the rms values of the fundamental and the harmonic freqency components.
Question 1 (a) Draw the actual OR the idealized i-v characteristics of a MOSFET. Propery label the drawn graph. [4 marks] (b) Name any two types of diodes AND any two types of thyristors. [4 marks] (c) Find the following values for the periodic current output of a diode rectifier with square voltage input and resistive load. The output is shown in the figure below. (i) Average (ii) Root mean square (RMS) (ii) RMS of the 1st harmonic (iv) Total...
1. A star connected secondary of a 60 Hz 3-phase transformer, as shown in Fig. 3, is supplying a 3-phase HW uncontrolled rectifier loaded with a pure 10 Ω resistor. The fuse Fy is open circuit. L. Determine the conduction periods of the diodes ii Draw the waveform of the output voltage. F1 D D and D in msec. phase A iii. Calculate the secondary line voltage if the average iv. Draw the waveforms of the supply currents i, and...
3-8. A diode which has the characteristics given in Fig. 3-30 is employed as a half-wave rectifier. The series resistor R, is 1 k2, and the input voltage amplitude is ±50 V. Calculate the positive and negative amplitudes of the output waveform. Also calculate peak load current and diode peak power dissipation.
QUESTION 3 (30 points) The following questions are related to the thyristor bridge topology shown in Figure 3.1 TA To Ta ioc VaN VAN R 3 T Ta TAL- Figure 3.1 a) By considering a highly inductive load current equivalent to a current source of value (inc), plot the current waveform of iA for an angle of 30 degrees (a-shown in Fig 3.2). Indicate on the waveform the length (in degrees) of the conduction and blocking parts of the waveform...
A three phase full-wave AC controller in Figure Q5(a) is supplied to a system with Y connected load system. The load consists of R = 100 and L = 0.01 mH which are connected in series between them. The line-to-line input voltage is given as 208 V with 50 Hz and the delay angle is given as a = 271/3. (1) Calculate the rms value of output phase voltage. (3 marks) (ii) Determine the power factor at output based on...
Problem 1 [Maximum Possible Points 34) A power controller is used supply the required power to the load as shown below. The source voltage is vs(t) = 170 cos(3771) V. Assume the resistance of the load is 1092. The load voltage is given by: (1) = 60 + 20 sin(377t - 20°) - 10 sin(1131t+15°) + 3 cos(1885t +40°) - 0.2cos(2639t) i () von Power Controller (1) Figure 1 For this controller determine the following a) DC and RMS of...
Even just steps/formula on what to follow would be sufficient if you cannot complete the question. Draw a bridge rectifier fed from a single-phase 240-V (Au) supply with a 4:1 step down transformer. A 10-2 load is connected to the output. Assume a simplified model for the diodes with VoN 1V per diode and zero leakage current. (a) Draw voltage, current and p(t) waveforms for one diode. (b) Derive the diode voltage spec from the voltage waveforms, and add 50%...