100 µF 50 µF 12 N 1.6 mH Figure P9.56 Full Alternative Text
Q: The circuit is operating in thesinusoidal steady state. Find io(t) if vs(t)=25 sin 4000t V
A: Source voltage is given as ; It can be written as ; Now, comparing with standard equation of AC…
Q: 9.42 Find Zab for the circuit shown in Fig P9.42. Figure P9.42 10 .j1 Ω 1Ω 10 j10 a j1N -j1N
A: The circuit is shown below: The above resistance and inductance are connected in series, the…
Q: O File | file:///C:/Users/tphok/Downloads/HW%206-1.pdf Presentation1 3 / 4 - 100% The frequency of…
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Q: The circuit is shown . The sinusoidal source voltage is υ g =120 cos (5000t+30°)V. Find the…
A: Given: Given: R1=1000 ohm R2=250 ohm L=50 mH C=1 micro F
Q: The circuit below is operating in the sinusoidal steady state. Find the steady-state expression for…
A: In this questions, we need to calculate output voltage across load terminal.
Q: Use current division to find the steady-stateexpression for io in the circuit if ig=400 cos 20,000t…
A: From the below circuit first of all we have to calculate Z1, Z2
Q: he circuit shown below is operating in sinusoidal steady state. Find the steady sate response vx(t)…
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Q: Use the mesh-current method to find the steady- state expression for v, in the circuit seen in Fig.…
A: In this question, We need to determine the voltage Vo using the mesh current analysis. We know XL…
Q: Compute the (9)9 09 (2) a 32 F и UF steady-state 2023 E. ĮE Eo 12v and e(t)= A 4 sin(3t+ Jolt) 30…
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Q: For the three circuits given in the figure, the source voltage is sinusoidal with a peak value of 1V…
A: Given the three circuits as shown below: For the three figures, it is provided with a sinusoidal…
Q: 1. Derive the differential equation for current i(t) in series circuit below. The impressed emf is…
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Q: 9.44 The sinusoidal voltage source in the circuit in Fig. P9.44 is developing a voltage equal to…
A: This question belongs to circuit theory . It is based on the concept of Thevenin's theorem .…
Q: Problem: the circuit operates at steady-state. Find the ex- pression of i1 (t), iz(t). Data: vs1(t)…
A: Node: The meeting point of more than two branches in a circuit is referred as a node. At that node…
Q: Use the mesh-current method to find the steady-state expression forvo(t) in the circuit
A: Given: A circuit in which mesh current is applied to find vo at steady state. Formula and concept:…
Q: QI: Connect the block diagram shown below. If A-1, trace on the oscilloscope the step function, Vol…
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Q: 9.29 The circuit in Fig. P9.29 is operating in the sinusoidal PSPICE steady state. Find the…
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Q: 1. Derive the differential equation for current i(t) in series circuit below. The impressed emf is…
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Q: Rs Vs R2: Figure P5.47 8 For the circuit of Figure P5.47, assume Vs 100 V, Rs = 4 k2, R¡ = 2 k2, R2…
A: To find the voltage across capacitor (vc) of the following circuit:
Q: The circuit in the following figure is operating in the sinusoidal steady sate. Given that va(t) =…
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Q: iven a continuous time sinusoid with frequency 10 Hz and 15 Hz respectively as…
A: Ts=1/Fs=1/40 to convert in discrete-time , we need to replace t by nTs which is equal to n/40 ie,…
Q: The circuit in Fig. P9.30 is operating in the sinusoi- dal steady state. Find io(t) if v,(t) = 25…
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Q: 9.40 The circuit shown in Fig. P9.40 is operating in the sinu- PSPICE soidal steady state. The…
A: Given , vg=80cos5000t V ω=5000
Q: Use the mesh-current method to find the steady- state expression for v, in the circuit seen in Fig.…
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Q: t=0 Rs1 Rs2 LE R Vsi R2 Vs2 Figure P5.61 2 In the circuit shown in Figure P5.61 Vsi = 12 V Rsi = 50…
A: As it is known that the capacitor behaves as an open circuit and the inductor behaves as the short…
Q: Use the mesh-current method to find the steady- state expression for vo in the circuit seen in Fig.…
A: Step 1: convert the capacitance & inductance into respective reactance XL=jωL=j5000×14×10-3=j70…
Q: j2 2 ell 10.640° 10 2 -15 2 20 i, Find the currents i, İ, and i, in this sinusoidal steady-state…
A: The equivalent circuit with assumed mesh current in each mesh is shown below: In above circuit, the…
Q: A voltage vC(t)=10 cos(2000πt) is applied to a 10-μF capacitance. Find the complex impedance of the…
A: Vc(t) = 10 cos (2000πt) C = 10μF ω = 2000π rad/sec Zc = -i 1wc = i 12000π×10×10-6 = -i50π…
Q: 8 In the circuit shown in Figure P5.67, Vsi = 12 V Rsı = 50 2 Vsz = 12 V Rsz = 50 2 R = 2.2 k2 R2 =…
A: From the circuit diagram, the switch is opened and the circuit is in DC steady-state conditions as t…
Q: The frequency of the sinusoidal voltage sourcein the circuit is adjusted until the current io is in…
A: a) Calculating frequency in hertz Calculating equivalent impedance…
Q: Find the steady-state expression for io(t) in thecircuit if vs=100 sin 50t mV.
A: Given data: vst=100cos50t-90° mVVs=100∠-90°ω=50 rad/s The expression for the inductor reactance is…
Q: Q.15: The switch has been in position "a" for a long time. At t=0 the switch is moved to position…
A: Draw the circuit for t < 0.
Q: Use the node-voltage method to find the steady-state expression forv(t) in the circuit shown. The…
A: Given data: vs=100sinωt Vω=50 krad/sis=10cosωt A The expression for the source voltage is given as,…
Q: 1. For the circuit , find the steady-stateexpression for vo if ig=25 cos 50,000t mA.2. By how many…
A: The inductive reactance is given by XL=jωL Put ω=50000 and L=4×10-3 H XL=j×50000×4×10-3=j200 Ω The…
Q: The source voltage is Vs = 48.59 sin 90° in the following circuit having R1= 48.59 k2 series…
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Q: QUESTION 2 io 10 cos 2t V C 6 sin 21 V For the circuit shown above, what is the amplitude of the…
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Q: The circuit is operating inthe sinusoidal steady state. The capacitor is adjusted until the current…
A: Given data: vg=80cos5000t V 1) The expression for the phasor representation of the voltage source is…
Q: Show that the impedance seen looking into the terminals a,b in thecircuit is given by the…
A: The impedance seen looking into the terminals a,b in the circuit is given by the expression,
Q: The circuit below is operating in the sinusoidal steady state. Find the steady-state expression for…
A: Given data, vg(t)=60sin(8000t)VInductor (L)=3.125mHResistance (R)=50Ω
Q: Q.15: The switch has been in position "a" for a long time. At t=0 the switch is moved to position…
A: The given circuit is, AT t=0 switch is moved to position b. use classical method, To find; voltage…
Q: 9.76 a) Find the steady-state expressions for the cur- rents i, and i in the circuit in Fig. P9.76…
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Q: 9.31 a) For the circuit shown in Fig. P9.31, find the steady- state expression for v, if i̟ = 25 cos…
A: For the circuit shown above For i g =25cos50000t mA Steady state expression for v0 is calculated…
Q: Use the mesh-current method to find the branch currents I, I,, I, and Ia in the circuit shown in…
A: Given circuit From the circuit, I1=-2∠0° A
Q: Refer to attached image
A: If we give supply to an uncharged capacitor then at time (t=0) it behaves like short circuit and at…
Q: Our source ac voltage is 110 Vrms, 50 Hz. Solve for time and the amplitude at a given angle as…
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Q: Q.15: The switch has been in position "a" for a long time. At t=0 the switch is moved to position…
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Q: 0 Find Zah in the circuit shown in Fig. P9.50 when the circuit is operating at a frequency of 100…
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Q: 9.45 Use source transformations to find the Thévenin equivalent circuit with respect to the…
A: Using source transformation and calculate the voltage of the source; Vs=120∠0°×250×10-3Vs=30∠0° V…
Q: Example 9.7 • The sinusoidal current source in the circuit shown in Fig. 9.18 produces the current…
A: To write the the frequency domain equivalent of the given circuit we must replace capacitor and…
Q: P 10.3-11 + The circuit shown in Figure P 10.3-11 is at steady state. The currents i1(t) and i2(t)…
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Q: Q.15: The switch has been in position "a" for a long time. At t-0 the switch is moved to position…
A: Given: The switch has been in position "a" for a long time. At t=0 the switch is moved to position…
Use the mesh-current method to find the steady-state expression for
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- HW9.4. Diode, Find operating point Assume an ideal-offset model for the diode with VON = 1 V. Given Is 2 mA and R the diode. - _ = 1 k, find the operating point of Is ↑ VD = ID = + VD ID Ꭰ (within three significant digits) V mA RA- From fig bellow, Draw the diode load line and determine operating poir and current through the diode for the following circuit. Use the providing V characteristics graph. Io (mA) 60 54 48 R1 190 0 R3 42 240 36 зо D1 R2 1900 24 18 9.5 V 12 6.A diode whose internal resistance is 20 ohms is to supply power to a 1000-ohm load from a 110V(rms) source of supply. determine the percent regulation from no load to the given load. A 1.81 % B 2.06 % C 3.19 % D 5.45 %
- Determine the điode's voltoge ond current for Hhe figure the diode's model. Find the volItage for each of Si 20 across the resistor in each case. Find the diode's power also In each case A ssume Rg is lo r.7) Figure shows a chopper operating from a 100 V dc input. The duty ratio of the main switch S is 0.8. The load is sufficiently inductive so that the load current is ripple free. The average current through the diode D under steady state is (a) 1.6 A (b) 6.4 A (c) 8.0 A (d) 10.0 A [2004] wwwww 100V D 1002/ Consider the circuit shown below with a transformer of 10:1 transformation ratio and the diodes are silicon. The input voltage is 120V RMS i. What is the name of the circuit? ii. What is the peak secondary voltage? iii. Find the voltage value across the resistor iv. What is the PIV for each diode? 120 VAC RL 10:1 ணை
- Q1/ For a single-phase half-wave uncontrolled rectifier with (RL) load, find the mean and rms values of the output voltage and ŋ with supply voltage v,(t) = 10 sin(wt) and R = 52 . Draw the circuit diagram and sketch the voltages and current waveforms. The conduction angle ß = 230°. %3D %3DFor the below shown rectifier configuration, find the expression for the average value of voltage across the load resistor R, if the supply voltage Vs = Vm sinwt and firing angle = a. RLOAD Vm/T Cosa Vm/TT (1+cosa) O 2Vm/TT Cosa O 2Vm/TT (1+cosa) O O O OWhat is the value of reverse recovery charge developed in diode having the rate of fall of diode current 37.6 A/us and t, is equal to 7.4 us? a. 1029.49 µC b. 547.60 µC O c. 2058.98 µc O d. 1391.20 µc
- For the following rectifier circuit, if the value of the supply U1 is 14 V RMS, and the resistor R=900 0, find the value read by the DC (average) ammeter. (Assume ideal diode) D (Si) Uz A O a. 10.94 mA O b. 7.00 mA O c. 13.68 mA O d. 8.75 mARequired information Problem 03.064 - The Q-point for the diode Consider the diode given below. 3 ΚΩ 2 ΚΩ www +3 V V + +₁₁ www 2 ΚΩ 2 ΚΩ Problem 03.064.a - The Q-point for the diode Determine the Q-point of the diode using the ideal diode model. (Round the final answer to three decimal places.) The Q-point for the diode is 5 mA)Determine the range of V₁ that will maintain V₁ at 8V and not exceed the maximum power rating of the Zener diode. Given Rs is 88ohms and RL is 0.24 kohms. . ܫܩܦܢ V₂ o PZ man Rs V₂=8V = 400 mW R₂