The circuit shown is to be designed so that VL,dc =12V and VLr,p-p =2V. • mF 1. The required capacitor C is equal to 2.The required turns ratio n is equal to n: 1 Di Valt) 240 Vrms SOH: RL 1000 D1 and D2 are ideal D2 e00000
Q: For the circuit shown in Figure Vcc Vcc= 9 V, Rc= 1.8 ksr B= 100 , Rc 39ksz 22ks2 REI RE2 C3
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Q: A coil of resistance R and inductance L is connected in series with a 50 μF capacitor, figure If the…
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Q: 4. For the circuit shown in Figure (4.a): Find the voltage across the capacitor in polar form. a) i)…
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Q: Q4: 10Q resistance in parallel with 50 µF capacitance and the current through the capacitance is:…
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Q: A Hay's bridge uses a standard capacitor of C4 = 0.02 mF and operates at a supply frequency of 720…
A: Given Data: C4 = 0.02 mF R2 = 0.54 kohm R3 = 4.4 kohm R4 = 170 ohm f = 720 Hz
Q: 2. A Parallel RLC circuit is given below, determine the following: a. Total Impedance of the circuit…
A: note: as per our company guidelines we are supposed to answer only first three sub-parts.…
Q: 4. For the circuit shown in Figure (4.a): i) a) Find the voltage across the capacitor in polar form.…
A: In this solution we discuss about current division rule, equivalent impedance calculation &…
Q: 4.47 Determine the equivalent impedance seen by the mu source Vs in Figure P4.47 when: vs(t) = 10…
A: Concept: 1) When n number of impedances are connected in parallel then, 1Zeq=1Z1+1Z2+...+1ZN 2)…
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Q: Given the following h1(n) = {2, 2, 1} h2(n) = (5) u(n) - (*) sin (n) u(n) h3(n) = 3 Determine the…
A: According to the question, we need to find the system function H(z).
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Q: An AC bridge is supplied with a source of 10 kHz as shown in figure 1. If Z, is a paralle…
A: An AC bridge circuit is used for measuring quantities like resistance, inductance, capacitance in a…
Q: 65 In the circuit of Figure P7.65: V1 = 170 cos(wt) V2 = 170 cos(mt + 27/3) v,3 = 170 cos(ot – 27/3)…
A: Part (a): Loop/mess analysis: Draw the circuit diagram for the mess analysis, Apply the mess…
Q: By using graphical approach, find Ipo and VcsQ for the figure shown, where VDp = 9V, Rp = 3KN, Rp =…
A: Given circuit: VDD=9 VRD=3 kΩRF=11 MΩIDon=7 mAVGSon=4.5 VVT=3.5 V To find: By using a graphical…
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A: NOTE- As per the rules we can answer only 3 sub-parts, please post the remaining sub-parts as the…
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A: Since you have asked multiple questions in a single request, we will be answering only the first…
Q: Vbatt=25 V C1=90 ?C C2=75 ?C C3=60 ?C R1=160 Ω R2=120 Ω t2=21.6 msec t3=27 msec Consider the…
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Q: Q1: For the circuits shown in figures. If the temperature has changed from 25°C to 65°C, find AIc.…
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Q: A Hay's bridge uses a standard capacitor of C4 = 0.02 mF and operates at a supply frequency of 800…
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Q: 9. What will be the impedance of a LR-C circuit if it has a circuit current of 3A and a supply…
A: 9. Answer: 40 ohm Explanation: a. It is not a valid option, By using ohms law the resistance is the…
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Q: A- By using graphical approach, find Ipo and Vcsą for the figure shown, where VDp = 9V, Rp = 3KN, Rp…
A: vgs=4.5v vg-vs=4.5 vs=0v vg=4.5v
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A: A DC RL circuit where inductor L= 1kH Resistance R= 1G ohm Find the time constant?
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A: Solve as below
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A: Relation between Ic and Ico is given by :- IC=αIE + Ico here Ico is the reverse saturation current…
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A: Circuit is underdamped. i.e., α<ωoR2L<1LC
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Q: i(t) In the given circuit a. Calculate equivalent Z (s) b. Find i (t). Your Student ID = ID If last…
A: From the given circuit, As student id is 5, Circuit element 1 is the inductor and element 2 is the…
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Q: 2. A Parallel RLC circuit is given below, determine the following: a. Total Impedance of the circuit…
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Q: 7 Determine the equivalent impedance in the circuit shown in Figure P4.47: л v,(t) = 7 cos (3,000t…
A: The reactance offered by the inductor is, The reactance offered by the capacitor is,
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Q: An AC bridge is supplied with a source of 10 kHz as shown in figure 1. If Z, is a parallel…
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Q: A coil and a capacitor have been connected in parallel to a Open at t-o 12 V DC source for a long…
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Q: 9 Inthe circuit of Figure P4.49, i,(1) = 1, cos (wt +E I, = 13 mA C = 0.5 µF w = 1,000 rad/s a.…
A: Using phasor notation, the source current which is, Where Io= 13 mA and ω = 1000 rad/s. Now, in…
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Q: +15 M +5 [M 1/ +12 M onsider the circuit of figure below. The op- 100 Vop ΚΩ B=99 mp used is ideal.…
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Q: 4. For the circuit shown in figure below, use a current mesh analysis to dete in the capacitor Ic…
A: Note: We are authorized to answer three subparts at a time, since you have not mentioned which part…
Q: A coil of resistance R and inductance L is connected in series with a 50 μF capacitor, figure If the…
A: Given data, I=3∠30°AC=50μFf=50Hz
Q: Solve. +Vcc = 18 V %3D Rc= 150 k2 Vout V, = 0 V Q, Q2 V = 20 mVp-p RE = 150 k) - VEE = 18 V
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Q: A RLC circuit with 100 Q resistor R1, 3 mH inductor L1, and 5 µF capacitor C1 are connected in…
A: The solution is given below
Q: For the circuit shown in Figure Vec= 22V, Rc= 5.6 Kr R8=330KS2, B=80 Rc Rg Yo= 1.2ksz 0.47ks CE
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Q: 2. Find Vo in the circuit of figure shown below using Kirchhoff's law and Maxwell Analysis. -6Q -j4Q…
A: The Problem can be solved by using mesh analysis and Kirchhoff's law. Here, Since in Mesh 1, a…
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- ]What happens when we encounter a circuit that has all 3 components in series? Parallel? How do we figure out what our phase relationship in a series reactance and resistive circuit? Parallel?moduleMSX-83fromBPsolarisusedinthefollowingconfigurationtomakeaPVarray: •4modulesinseries •2strings(of4modulesinseries)inparallel TheelectriccharacteristicsatSTCaregivenbelow: Maximumpower(Pmax)=83W Short-circuitcurrent(Isc)=5.27A VoltageatPmax(Vmp)=17.1V Open-circuitvoltage(Voc)=21.2V CurrentatPmax(Imp)=4.85A WhatwillbetheelectriccharacteristicsofthePVarray?1.1 We have two loads in delta and another in star in parallel, the impedances of the branches of the delta are equal and we have that RΔ=1p.u. and XΔ=0.75 p.u., while in the star we have equal values of the branches, but formed by admittances where we have the conductance in parallel GY=0.64 p.u. and inductive susceptance of BY=-j0.48 p.u. If the loads are being supplied by a positive sequence balanced three-phase source with line-to-line voltage of phases a and b of Vab=1∠ 30º, if the base values are line-to-line base voltage of 1kV and three-phase base power of 100kW. DetermineA) Line and phase voltages, line and phase currents of the load in delta, line and phase voltages of the star, line and phase currents of the star.B) Obtain separately the phasor diagram of the delta and star load with the values obtained in A), indicate on the scale that these are 1 p.u.=5cm for example.C) obtain the power triangle and the power factor separately for each load. D) Obtain the power…
- When it is connected in series with a pure resistor R with resistance r and inductance L, the current it draws with a sinusoidal voltage application with an effective value of 100V is 5A. The voltage across the coil and resistor element is 80V and 30V. a-Find the power and power factor consumed by the coil alone? b- Find the power consumed by the system and the power factor? c- Draw the voltage triangle, impedance triangle and power triangle?For the circuit shown in the given figure, assume that Vg˜=45 ∠0 V rms��~=45 ∠0 V rms , Rg = 9 Ω, and Ro = 5 Ω. Assume an ideal transformer. Find the equivalent resistance seen by the voltage source. The equivalent resistance is ________∠___________ Ω.For the circuit shown in the given figure, assume that Vg˜=45 ∠0 V rms��~=45 ∠0 V rms , Rg = 9 Ω, and Ro = 5 Ω. Assume an ideal transformer. The power Psource supplied by the voltage source. The power Psource supplied by the voltage source is ________ W.
- For the circuit shown in Figure,a. Find the Thévenin equivalent circuit for the source.b. Find the power dissipated by the load resistor. c. What value of load impedance would permitmaximum power transfer?The voltage source is sinusoidal with frequency60 Hz, and its polarity is such that the current fromthe voltage source flows into the 10-Ω resistor.a) Explain the construction of LVDT. Identify some suitable examples according to their applications.b) Discuss contacting and non-contacting tachometers.Assuming that a nonzero ac voltage source is applied, state whether the power and reactive power are positive, negative, or zero for a. a resistance in series with an inductance; b. a resistance in series with a capacitance. (Assume that the resistances, inductance, and capacitance are nonzero and finite in value.)
- A lossy capacitor Cx, rated for operation of 5 kV, 50 Hz is represented by an equivalent circuit with an ideal capacitor Cp in parallel with a resistor Rp. Cp is 0.102 microF and Rp=1.25 Mohm. The power loss, and loss tangent of this lossy capacitor at rated voltage respectively ?PLEASE SHOW YOUR DETAILED SOLUTION. WILL GET A LIKE A 25- W resistor, a 300-mH, and a 40-µF capacitor are connected in parallel across a 120-V, 50-Hz source. Determine the magnitude of the following: (a) admittance; (b) current through resistor, inductor, and capacitor; (c) the total current; (d) true power, inductive and capacitive reactive power; (e) apparent power, power factor, and power factor.The fixed-value components of a Hay Bridge are R2 = 6Ω, and C1 = 2µF. At balance R1 = 16Ω and R3 = 11Ω. The supply frequency is 50 Hz. Calculate the value of the unknown impedance? Calculate the Q factor? What is the advantage of this bridge? The value of the variable resistance of the approximate method for measuring capacitor is R = 80Ω. The voltage across the variable resistance and the capacitor are 20V and 30V. Find the capacitance value if the supply frequency is 60Hz?