etermine /B and lc and Vc for the circuit shown below. Vcc +10 V 1.0 k 22 kfl W D Poc= 50 TV
Q: Q63. The time constant ,settling time and the rise time of the control system with the following…
A: Standard form of first order system = a/(s+a) Time constant = 1/a Rise time = 2.2/a Settling time =…
Q: 2y' + y = 0 y(0) = 1
A:
Q: 5.3 Find i (in milliamperes) in the circuit in Fig. P5.3. PSPICE Figure P5.3 MULTISIM 8 kN 4 kN 20 V…
A: We need to find out current for the given circuit
Q: Electrical Engineering 1. Illustrate (then describe briefly): Procedure in testing the seven basic…
A: Basic logic gate represent digital system. Basically three logic gates are make digital system.…
Q: Practice Problems (2) Calculate: core/cladding interface The angle of refraction at the air/core…
A: It is given that: nair=1ncore=1.46ncladding=1.43θincident=12°
Q: Problem 1 (Problem 7.2-4 from the textbook) 7.2-4. Consider a sampled-data system with 7 = 0,5 s and…
A: Problem (1) To give the steps for the given question
Q: For the series R-L-C AC Circuit shown below with R = 20 ohms, L = 10 mH, and C = 100 µF: a.)…
A: To find the resonating frequency of a series RLC AC circuit And also determine the amplitude of…
Q: Question 6 (a) A parallel network consists of two branches A and B. Branch A has a resistance of 10…
A: V=230Vf=50HzBranch-A:Resistor '10Ω' in series with inductor '0.1H'.Branch-B:Resistor '20Ω' in…
Q: A parallel plate capacitor of 10 plates, each of one sqm. of area and placed at a distance of 3 mm…
A:
Q: a. Determine the current i3n(t) through the 32-resistor for <t< . b. Plot the current's i3n(t) and…
A: The circuit is as shown below, For t<0, 6+3e-tu(t) = 6,
Q: A transmission shaft is supported between two bearings, which are 750 mm a part. Power is supplied…
A: Given that; D=450 mmW=300 NT1T2=2:1T1=2T2Syt=300 N/mm2P=12.5 KwSsy=0.5 SytFactor of safety=3
Q: Using the convolution integral find the inverse transform of 1/s(s + 2). Answer: |(1 - e -2")
A: Let function Fs=1s(s+2) The Integral formula for Inverse Laplace transform is ft=∫0∞Fsestds
Q: 5A >21x
A: We need to find out current for given circuit
Q: Why is it desirable to have the modulation index of an A signal as large as possible, without…
A: In this question we will write why is it desirable to have the modulation index of an AM wave signal…
Q: A 100-kW (output), 3300-V, 50-Hz, 3-phase, star-connected induction motor has a synchronous speed of…
A: Given data is output = 100kWSynchronous speed =500rpmSlip (s)=1.8%=0.018Power…
Q: A parallel-plate capacitor has its plates at x = 0, d and the space between the plates is filled…
A: A parallel plate capacitor is a capacitor formed by placing two metal plates at a distance d between…
Q: A three-phase, 480 V, six-pole, Y-connected, 60 Hz, 10 kW induction motor is driving a constant…
A: Given information about a three phase Y-connected induction motor is Supply voltage V1=480 Volts…
Q: A load of 200 kW at 0.85 power factor is to pe shared by two transformers A and B aving the same…
A:
Q: ) To match a load of ZL = 30 (2), to a transmission line with characteristic (f) ( impedance Zo = 75…
A: According to the question, to match a load line, we need to find the distance of the quarter-wave…
Q: (RC-circuit) Find and graph the current i(t) in the RC- circuit in Fig. 147, where R = 100 N, C :…
A: The solution is given below
Q: Q2: For the s-domain circuit in figure below. Find: (a) the transfer function [V,(s)/V(s)], (b) the…
A: The circuit in s-domain is shown below,
Q: What is virtual synchronous Generators and their applications in Microgrid
A: Virtual synchronous Generators: The most difficult problem with inverter-based systems is…
Q: Symbols for electrical installations
A: An electrical installation is a set of electrical devices that are connected together. Electrical…
Q: P1.29. Determine the work done in moving an object along a vector a 5i - 3j + 2k if the applied…
A: In this question we need to find a work done
Q: G2 G, R
A:
Q: 2. A series RLC circuit is driven by a generator with a 240-V amplitude and a frequency of 60.0 Hz.…
A:
Q: Evaluate the following statements: i. R13 is traditionally used as the stack pointer and retaining…
A: The registers R13, R14, and R15 of ARM processors use as: R13 work as a stack pointer and stores…
Q: 1. Solve for the current of 1+j3 ohms impedance using Kirchhoff's 0.02R 0.02 L 00
A: In this question we will find current through inductor using Kirchhoff law.....
Q: A light bulb rated 60 W at 240 V is operated from a 240 V source. (a) Find the current flowing…
A:
Q: blem 6. Find the output step response c(t) of both system Ow. 5. C(s) s+5 (a) 20 C(s) s+20 (b) place…
A:
Q: Solve for the branch currents using any method. 50 10V 12Ω www 10Ω 10Ω 12V 150 ww
A: In this question, We need to determine the branch current in the circuit using the any method. We…
Q: Problem: For the cct shown find the equation of current and draw the phaser 202 diagram. 402 VR VL…
A: We need to find out current for given circuit
Q: Using left side of the divergence theorem, find the total charge enclosed in the rectangular…
A:
Q: 42. Calculate the average power delivered to the 400 m2 and 21 resistors, respectively, in the…
A:
Q: Discussion 1- For the values = 0.7 and @, = 2 find the rise time, peak time, settling time, and the…
A: Given the value of ζ=0.7 and ωn=2 From this the value of ωd=ωn1-ζ^2ωd=21-0.7…
Q: 1. Solve for the current of 1+j3 ohms impedance using Kirchhoff's Law. 0,02 L 0.02 R Ejan
A:
Q: 5A 3Ω 2Ix 3Ω ww 50 ww
A: We need to find out current for given circuit
Q: Requized: Reg
A: The circuit is given as Now the equivalent resistance seen by the source will be…
Q: An electromagnetic wave is propagating in a medium in the x direction. Magnitude of the electric…
A: Given in the question, E1=12 V/m at x=4m E2=8 V/m at x=10m To find skin depth, The electric field…
Q: 19 -1 IB BR W/L8
A: Given formula is IB=2β19RB2W19L19W18L18-12 ------(1) IB=base current WL=Transistor size…
Q: nd Pso, respectively. (a) Find D at r= 1, 3, and 5 cm. (b) Determine Pso, such that D = 0 at r = 7…
A: We need to find out electric flux density for given charge distribution .
Q: A filtered 4 diode full wave rectifier circuit with the following specifications: The line load is…
A:
Q: Calculate V, and V2 in the circuit shown in Fig. 10.6. Practic 100/60 V VI V2 ww 75/0 V Figure 10.6…
A: In this question we will find nodal voltage using kCL..
Q: 2. The capacitances of a 3-core belted type cable are measured as detailed below: (i) Between three…
A: The solution is given below
Q: CatX dy Suix
A:
Q: From the data collected in Tables 1,2, and 3, plot the current versus voltage characteristic for…
A: Both table 1 and table 2 data is same so, same graph is enough.
Q: Q1: A parallel RL circuit has R-4 2 and L=1 H. The input to the circuit is i,(t) = 2e-u(t)A. Find…
A:
Q: Response Analysis: The system has a unit step input, Find: Gl = _1 s +2 G2 = 1 s +1 Transfer…
A: The solution is given
Q: 2. A series RLC circuit is driven by a generator with a 240-V amplitude and a frequency of 60.0 Hz.…
A: Given:Vs= 240Vf=60XC=-j600ΩR=150Ω Ohm's Law states that voltage across any element is equal to…
Q: Fbop4oblems 1 to 6 A material has µr = 1, ɛr = 10, and o = 0.02 S/m at 20 GHz. Problem [1] What kind…
A: A lossless material is the material which doesn't dissipate EM energy the reason behind this is poor…
Step by step
Solved in 2 steps with 2 images
- *Use 4 decimal places. **Note D1 is Germanium, D2 is Silicon, For the circuit below, determine the diode voltages VD1 and VD2, diode currents ID1 and ID2, and voltage across the resistor, VRLIMIT. Use practical model. Assume r'a=150. VBIAS = 15V and RLIMIT = 1.5kohms. VD1 = Blank 1 V; VD2 = Blank 2 V; Ip1 = Blank 3 mA; Ip2 = Blank 4 mA ; VRLIMIT = Blank 5 V Capture3(1).JPG +Vo1- +VRLIMIT +VD2- Io2 VBIASNumber 9 Please show your detailed solution. Number 9 Please show you detailed solution. A 50-ohm resistor is in series with a 40-?F capacitor across a constant potential source of 180 volts. Determine frequency that will give current of 3.13 amp. A. 250 Hz C. 160 Hz B. 200 Hz D. 140 HzQUESTION 2 a) b) Figure Q2a shows a parallel clipper circuit. Analyze the circuit and hence sketch the output waveform for one complete cycle of the input. R own V₁ 10 Vi (V) A -20 15- -15 t(s) t(s) Figure Q2a Determine the output voltage, V, and hence sketch the output voltage waveform for the clamper circuit shown in Figure Q2b. C Figure Q2b Si Si 5 V 3V V₂ R Vo
- *Use 4 decimal places. **Note D1 is Germanium, D2 is Silicon, For the circuit below, determine the diode voltages VD1 and VD2, diode currents ID1 and ID2, and voltage across the resistor, VRLIMIT. Use practical model. Assume r'=15N. VBIAS = 12V and RLIMIT = 950 ohms. VD1 = Blank 1 V; VD2 = Blank 2 V ; Ip1 = Blank 3 mA; Ip2 = Blank 4 mA ; VRLIMIT = Blank 5 V Capture3(1).JPG ... +Vo1- +VRLIMIT- +Vp2- Io2 VBIAS Blank 1 Add your answer Blank 2 Add your answer Blank 3 Add your answer Blank 4 Add your answer Blank 5 Add your answerIn the circuit below, we have a Zener Diode circuit with a load, RL. Use the same measurements for source voltage V1 and resistor R3 resistance as in the circuit schematic. V1 -15V R3 2700 D1 1N753A RL Determine the lowest possible value for the load RL, so that the voltage drop across it is equal to the Zener voltage. For your diode, use model Zener 1N753A. This diode has a Zener voltage of 6.2V, a Zener current of 60mA, a Zener impedence of 72, and a test current of 20mA.Question 2 Find I₁, I2, Va, and V₁ in the following circuit. Use diode constant voltage drop (CVD) model with VD = 0.5 V. You must show your work in details and you must verify your assumptions. The circuit parameters are:, V₁ = 20, V₂ = -10, Is = 2, and R₁ D₁ H1₁ V₁ V Va I, mA D₂ -oVb R₁ kN V₂ V 100KD
- 1:EV * Asiacell Illı. Exercise_971Ob0ea2419c5ec80ad189723... Exercise Si E, c Si E20 o Vo R{1 kn E 10 V Design the circuit shown below using MULTISIM, the measure (current & voltage) on the resistor two times first when (El = 3v & E2 = 10v) and second when (El = 15V & E2 = 2v), analysis the circuit theoretically and compare between practical and theoretical results.b) Use the ALU 74181 in the figure below and the tables (one is enough; second maybe, need to check the new kit) to implement : A + B, A – B, A. B. (MSB) (LSB) 10 (MSB) F3 F2 F1 FO S3 Cn+4 16 s2 20 U14 15 S1 14 so A3 A2 A1 AO B3 B2 B1 B0 M Cn 24 23 22 21 28 27 T26 25 (LSB) (MSB) (LSB)(MSB) (LSB) And given that under M = 1 the circuit performs the following arithmetic and logic functions according to Table 11.1. Input selection S3 Output M-H S2 SI Cn=L. F3 F2 F1 FO A 1 -A В -B A&B AxB 1 A'B 1 Ax(-B) (-A)xB (-A)x(-B) 1 1 ACTIVE HIGH DATA M-L: ARITHMETIC OPERATIONS SELECTION M-H LOGIC s3 s2 s1 so Ino carry) (with carry) F-A PLUS 1 F- LA + B) PLUS 1 F- (A + BI PLUS 1 FUNCTIONS L L F-A F-A+B F-AB F-A H FA+B F-A+T F- MINUS 1 12s COMPL) F-A PLUS AB F- IA + BI PLUS AB L L L L F-0 F-ZERO F- AB F-A PLUS AB PLUS 1 F- (A + BI PLUS AB PLUS 1 L L L H L F-AOB F- AB L L F-A MINUS B MINUS 1 F-A MINUS B F- AB MINUS 1 F- A F-A PLUS AB PLUS1 F-A PLUS B PLUS 1 F- IA + B PLUS AB PLUS 1 L H L F-A PLUS AB…A. Determine V1 without C B. Determine V1 and VR with C C. From aB Determine V2, IL, PD D. From B determine the efficiency of the regulator (OUR SUBJECT IS INDUSTRIAL ELECTRONIC)
- Basic Electronics Engineering Electrical Engincering Dept. Dr. Hassan Falah Fakhruldeen Hwl: Find the operation points of the D1 and D2 in figure shown below. { 10 k Z DI Z D2 -10 v Basic Electronics Engineering Electrical Engineering Dept. Dr. Hassan Falah Fakhruldeen Hw2: Find the current flowing in the circuit of figure 3 if the diode can be described by: (a) the 0.7V model. (b) the 0.7V model with an internal (series) resistance of 50. 80 Figure 3 Hw3: A circuit containing a diode and resistors is shown in figure 5. (a) Use the 0.7 V model for the diode to determine values for v1, V2, I1, 12, 13. (b) Calculate the power dissipated in the diode. 6.8ka V1 5V Figure 5*Use 4 decimal places. **Note D1 is Germanium, D2 is Silicon, For the circuit below, determine the diode voltages VD1 and VD2, diode currents ID1 and ID2, and voltage across the resistor, VRLIMIT. Use practical model. Assume r'a=150. VBIAS = 14V and RLIMIT = 1.18 kohms. VD1 = Blank 1 V; VD2 = Blank 2 V; Ip1 = Blank 3 mA; Ip2 = Blank 4 mA ; VRLIMIT = Blank 5 V Capture3(1).JPG +VD1- +VRLIMIT +Vp2- Io2 VBIASliting Q9. For the circuit shown in Figure C9, Calculate the following i) Current through the Silicon diode (Isi). ii) Current through the Resistor R2 (1). iii) Current through the diode D4 (IGe4). iv) Voltage at points V3 and V4. Is D1. D2 Si Si oV4 RI 1.3K2 R3 2.7K R2 3K2 IGe4| 15V D5 Si 03 D4 Ge Ge V2 1V Figure C9