Draw digital circuit for the following equation by using AND, OR & Not gate: g=a'b'c + abc' + (ab)
Q: Determine the output voltage
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. Draw digital circuit for the following equation by using AND, OR & Not gate:
g=a'b'c + abc' + (ab)
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- For the circuit below define the fields described in the rows by matching them to a letter given for an equation or a value in Figure 1. v. () (1+ jwRC) v. () ¯(1 + J»RC) (a) (b) R Zero Infinite (c) (d) V (1+ jeRC) (f) (e) Unity (e) (h) Figure1. Output voltage in terms of input voltage Choose... + The expression for the ratio of input voltage to output voltage Choose... + as frequency tends towards zero Gain as frequency tends Choose... + towards zero Voltage Gain Choose... + Gain as frequency tends towards infinity Choose... + Choose... +Signal and system plz explain every step that how do thisQuestion No. 2 a Inan experiment the voltage required for the device is 9V dc but unfortunately the transformer avai lable is of 220-6 V dc. Design a circuit which can power the device (use only methods that we have studied excluding Zener diode) b. Explain the behavior of the foll owing circuits if the input signal is triangular wave of peak voltage 5V and the biasing battery of 3V 4-
- What is the maximum dc voltage you could expect to obtain from a transformer with an 18 Vrms secondary using a bridge rectifier circuit with a filter capacitor? in your own wordsDevices that pass the signal from its source to the measurement device without aphysical connection by using transformer, optical or capacitive coupling technique arecalled?Select one a. bridgesb. isolatorsc.filters d.rectifiersThe neutral current is equal to three times of ....... sequence current.
- QUESTION 3 is dc -Lac 0 f(t) = Ide T If ripple-free load current in steady-state is assumed, the input current is waveform of the single-phase full-wave rectifier may then be depicted as shown in the figure above for an ideal input transformer. With the assumption that the supply is ideal and perfectly smooth and ripple free load current, which implies an infinitely large load inductance, it is quite straightforward to obtain an analytical expression for the input current harmonics. The rectangular wave is defined as de 270 when 0< t < π when_π1. The DC-DC converter has several circuit configurations. a) (Draw a simple connection of IGBT switch, diode and inductor that can discriminate between Buck, Boost and Buck-Boost converter circuits respectively.) b) ('A Boost converter produces an output voltage, Vo that is more than or equal to the input voltage, Vi. Based on this statement develop the equation for the relationship between Vo Viand D. where D represents the duty ratio. You can use any suitable diagram to illustrate your answer.)2- The condition for modulator to work as 4Q balanced is : a. V, or Vz VT. d. Vi or V2> VT.Figure Q6 shows the basic circuit for a Silicon Controlled Rectifier (SCR). Question 6 IĻoad V gate VP (A V Load Figure Q6 : SCR Arrangement a) Assuming the load is purely resistive : i) Sketch the load voltage waveform you would expect to see if the thyristors firing angle, a, was 30°: ii) For a secondary voltage of Vsinwt show that the average load voltage is described by : V -(1+cos(a)) Vay = 1 (27 "V sin Od0 where 0= wt 2л о You are given that Vy = iii) If the ac secondary voltage was 10Vrms and the resistive load is 202 what would be the average load current ? ||is de (c) -Idc de 0 first 2 harmonics of b If ripple-free load current in steady-state is assumed, the input current is waveform of the single-phase full-wave rectifier may then be depicted as shown in the figure above for an ideal input transformer. With the assumption that the supply is ideal and perfectly smooth and ripple free load current, which implies an infinitely large load inductance, it is quite straightforward to obtain an analytical expression for the input current harmonics. The rectangular wave is defined as Ide K f(t)= By using the full range Fourier Series, compute the de when 0is Idc -Idc 0 K de 27 If ripple-free load current in steady-state is assumed, the input current is waveform of the single-phase full-wave rectifier may then be depicted as shown in the figure above for an ideal input transformer. With the assumption that the supply is ideal and perfectly smooth and ripple free load current, which implies an infinitely large load inductance, it is quite straightforward to obtain an analytical expression for the input current harmonics. The rectangular wave is defined as when 0SEE MORE QUESTIONSRecommended textbooks for youIntroductory Circuit Analysis (13th Edition)Electrical EngineeringISBN:9780133923605Author:Robert L. BoylestadPublisher:PEARSONDelmar's Standard Textbook Of ElectricityElectrical EngineeringISBN:9781337900348Author:Stephen L. HermanPublisher:Cengage LearningProgrammable Logic ControllersElectrical EngineeringISBN:9780073373843Author:Frank D. PetruzellaPublisher:McGraw-Hill EducationFundamentals of Electric CircuitsElectrical EngineeringISBN:9780078028229Author:Charles K Alexander, Matthew SadikuPublisher:McGraw-Hill EducationElectric Circuits. (11th Edition)Electrical EngineeringISBN:9780134746968Author:James W. Nilsson, Susan RiedelPublisher:PEARSONEngineering ElectromagneticsElectrical EngineeringISBN:9780078028151Author:Hayt, William H. (william Hart), Jr, BUCK, John A.Publisher:Mcgraw-hill Education,Introductory Circuit Analysis (13th Edition)Electrical EngineeringISBN:9780133923605Author:Robert L. BoylestadPublisher:PEARSONDelmar's Standard Textbook Of ElectricityElectrical EngineeringISBN:9781337900348Author:Stephen L. HermanPublisher:Cengage LearningProgrammable Logic ControllersElectrical EngineeringISBN:9780073373843Author:Frank D. PetruzellaPublisher:McGraw-Hill EducationFundamentals of Electric CircuitsElectrical EngineeringISBN:9780078028229Author:Charles K Alexander, Matthew SadikuPublisher:McGraw-Hill EducationElectric Circuits. (11th Edition)Electrical EngineeringISBN:9780134746968Author:James W. Nilsson, Susan RiedelPublisher:PEARSONEngineering ElectromagneticsElectrical EngineeringISBN:9780078028151Author:Hayt, William H. (william Hart), Jr, BUCK, John A.Publisher:Mcgraw-hill Education,