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Alternating Current Theory in Use - Math Problem Example

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The study of "Alternating Сurrent Theory in Use " is dedicated to researching alternating current  waveform which changes it polarity between a maximum positive to a minimum negative value for every half cycle of either current or voltage applied…
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Alternating Current Theory in Use
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September 7, APPLICATIONS OF AC THEORY INTRODUCTION Alternating current (AC) refers to a waveform which varies in time, also referred to as a sinusoidal waveform. AC waveform constantly changes it polarity between a maximum positive to a minimum negative value for every half cycle of either current or voltage applied. An AC waveform can also be referred to as a periodic waveform since it time-dependent and is usually a product of a rotating generator. The shape of this periodic waveform is obtained by using a fundamental frequency and adding harmonic signals for varying amplitudes and frequencies. The main characteristics of AC waveforms are given as: PERIOD (T): This is the time an AC waveform takes to repeat itself from the beginning to the end. The SI unit for period T is seconds(s).In sine waves, it’s called periodic time while in square waves it is referred as pulse width. THE FREQUENCY (f): This is the number of times a waveform repeats itself in a unit time period, and is given as the reciprocal of time period and given in Hertz (HZ).This implies that, f=1/T. AMLITUDE (A): This is the magnitude the signal waveform and is measured in Amps or Volts. Waveform represents a variation of current or a voltage plotted to a base time. The base line for alternating current waveform is the zero condition of voltage or current. The different types of ac waveform are given as, sine waveform, triangular waveform, square waveform, and the complex wave form as shown in the diagram below. When mixed frequency sine waves are produced, a series of sine waves is produced with the sine wave with the lowest frequency being the fundamental wave form while the others are called harmonics and there frequencies are usually whole numbers which are multiples of the fundamental sine wave. A cycle is the time AC waveform takes to move from a positive half-cycle to negative half-cycle and then back to zero and the time taken to complete a full cycle is referred to as periodic time. The relationship between time periods, frequency an cycles is given as: Frequency, (f) =1/Frequency=1/T HERTZ Periodic Time (T) = 1/f seconds The amplitude of an AC waveform is usually represented as the maximum/peak value of voltage or current which the highest value reached by voltage or current during each half cycle .The average value of an AC waveform is calculated as: 0.637×maxmum voltage/current. The RMS Value of an AC waveform is the defined as the equivalent mean value of an AC system that gives to the load the same power as the same DC circuit, and is calculated as: RMS VALUE=0.707×MAXMUM VALUE OF CURRENT/VOLTAGE. The form factor gives information about the real shape of an AC waveform and is calculated as ratio of Rms value to Average value. Different applications of AC theory are as follows 1) AC theory is used to recognize a variety of complex waveforms and also it is used to these waveforms are produced. The different waveforms produced by use of AC theory are: Square waveform: The RMS Value of square waveform is an equal value as the peak value of the waveform. The average value of the square waveform usually equals the value peak voltage or current, which implies that the form factor of a square waveform is unit since the ratio of RMS value to the average value is one. This implies that square waves are equivalent to the summation of sine wave and an infinite series with frequencies of odd-multiples and have diminishing magnitudes as long as they are at the same frequency. Saw tooth waveform: The saw tooth wave form has an RMS value given as: 0.577× peak/ maximum value, the average value for a saw tooth is 0.5 × peak values and the form factor is given as 1.11. Sine wave: The RMS value of a sine wave is given 0.707×peak value and the average value is given as 0.636×peak value hence the form factor of sine wave is 1.15. Harmonics are usually developed in AC power systems when AC is rectified to DC and is usually done by use of components which allow only unidirectional flow of current such as diodes. Given the following waveform equation v = DC + V1sin (t + ϴ1)+ V2sin (2t + ϴ2)+ V3sin (3t + ϴ3) + … Volts i) Saw tooth waveform RMS VOLTAGE=O.577×100=57.7 Mean voltage=0.5×100=50V Form factor=1.15 ,Hence DC=50V,This implies that v=50+100sin(t)+33.33sin(2t + 45)+20sin(3t + 90)+14.29sin(3t + 135)+…. ii) Square wave Rms voltage=100V, mean voltage=100V and form factor=1 This implies that, v=100+100sin(t)+33.33sin(2t + 45)+20sin(3t + 90)+14.29sin(3t + 135)+… iii) Sine wave Rms voltage=0.707×100=70.7V, mean voltage=0.636×100=63.6V Hence form factor=1.11 V=63.6+100sin(t)+33.33sin(2t45)+20sin(3t +90)+14.29sin(3t +135)+… Simulation of the waves produced above was done by use of a 10 ohms resister and it was clear that the equations obtained above were correct. 2) A complex voltage is determined by: v = 120sint + 19sin (3t + 40) + 8.5sin (5t - 65) Volts. Where the frequency is 60Hz.Use Microsoft Excel (or something similar) to plot two complete cycles of the above waveform (show the fundamental and harmonic components as well as the overall waveform on the same graph). From the sine wave curve, the fundamental harmonic originates from Zero while third harmonic sine wave leads the first harmonic by 40 degrees and the fifth harmonic lags by 65 degrees. 3) Voltage of: v = 115sint + 39sin (3t + 60) + 11.5sin (5t - 15) Volts (Assume the frequency to be the 50Hz) is applied to the terminals of the circuit below. a) Find the value of the capacitor to make the above series circuit resonate at the third harmonic frequency. During the third harmonic f=150HZ But f= C=9.8micro Farads b) Using the value of capacitance found in a) above, find an expression for the instantaneous current. In the form i = If sin (t +) + I3sin (3t +) + I5sin (5t +) amps Reactance X=reactive capacitance+ reactive inductance X=349.70 ohms Z=352.90ohms I peak=V peak/Z Hence, I first harmonic=.0.3A, second harmonic=0.1A, Third harmonic=0.03A hence i=0.3sin ((t + )+0.1sin(3t +) +0.03sin(5t + ) amps c) Using the answer to b) above, find the RMS value of this current. I=-0.21+-0.07+0.02=0.16A I rms=0.113A 4) The circuit shown below is for a typical fluorescent lamp fitting, which is connected to a 230V 50Hz supply. Assuming the fluorescent tube has an operating resistance of 95Ω, calculate: a. the impedance of the circuit Impendence (Z)= F=50HZ L=520mH=0.52H C=11mF=0.000011F R=r+Rf =14+95=109 Rf is the resistance of the fluorescent. V peak=230V XC==289.86r Where Xc is the reactance due to the capacitor C XL=2pifL=163 Where XL is the reactance due to the inductor L X==372 ohms Where X is the total reactance due to capacitor C and Inductor L. Z=388.06 ohms. Where Z is the total impendence of the circuit due to presence the reactance and resistance b. the current flowing through the tube Current (I) = V peak=230 This implies that I=0.59Amps c. the power dissipated by the tube Power=IZ=136.32 watts d. the operating phase angle () of the complete fitting Angle=tan=73.67 e. the supply current to the fitting I rms=V rms/Z=0.42Amps 5) In the following ideal transformer a turns ratio of 12:1, calculate: Maximum power occurs when, ()= Where Rl is the load resistance and Rs is the resistance in series with the supply voltage of the transformer.Hence Load resistance Rl=11.11 ohms where Rs=1600 ohms Input impendence (Zp )= ()× Rl=1600 ohms Load Voltage (V2)=×V1=19.17V Rms Power developed (p) =V2/Rl=33.08 watts 6) A 25 resistor is connected to the secondary winding of a ‘perfect’ single phase transformer. The terminal voltage at the secondary is 230V. If the Primary terminal voltage is 1000V, calculate: f. The turn’s ratio. This implies that turns ratio is given as, the ratio of the primary and a secondary voltage which is 100:23, Where N1 and N2 are primary and secondary voltages respectively while V1 and V2 are primary and secondary voltages. g. The current I2 (A) and power P2 (W) drawn by the load. V rms=Vpeak×0.707=230×0.707=162.61 I rms=V rms/Rl=6.50Amps Power=I rms×R =1057.68 Watts h. The current drawn from the supply I1 (A) V rms=Vpeak×0.707 =1000×0.707=707Volts I rms= V rms/Rp but Rp=472.59ohms Hence I=1.5Amps Where Rp is the resistance at the transformer input i. State the losses found in a typical transformer. Winding losses which occurs when heating occurs as a result of winding resistance which leads to loss of energy inform of heat in the windings. Winding losses is also referred to as copper losses since most of transformer windings are made of copper. Core losses Core losses are sub-divided into hysteresis and Eddy current losses CONCLUSION It was found out that the alternating current theory is quite applicable in solving many problems in electrical engineering. AC theory is therefore applicable in Radios, transformers, audio devices such hi-fis, and loudspeakers. This theory is also applied in the design of oscilloscopes and other digital devices. Read More
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