Problem 13.2-4 erial.11 oblem 13.2-3 roblem 13.2-4 oblem 13.2-4 Companion Problem) xample 16.7-1 9222 32 3...
Problem 10.6-19 4 H 2 4 m 3 15 2 vy(t) 27 1 = v(t) 3 vit) $ 20 mF + v.(t) The input to this circuit the voltage source voltage is vs(t) = 8 cos(2 t) V. First, represent the circuit in the frequency domain using phasors and impedances. next, Apply KCL at nodes 2 and 4 and arrange the results in matrix form to to obtain the node equations: Tatjo 0 T 13-1-ja VO [, 1-ja][M]-[:) Determine the...
n=32
n=last two digit of your id m=0.7*n Problem 1 For the circuit shown below . ______[20] ---------------------- m+1 92 m+42 m+4 22 n+ 10uo F 3 2H 5u(-t) a. The initial conditions (0) and i(0)= b. Draw the circuit in S domain then write the nodal equations to find the capacitor voltage V.(s) >0
Problem 4 For the circuit in Fig. 3, frequency w a) Draw the impedance model of the circuit for a source b) Convert the voltage lence) and redraw the impedance model; (using Thevenin and Norton equiva- Source into a current source c) Using the results from part (b), derive the expressions to determine the resonance frequency of the circuit in terms of the circuit parameters; e) We would like to have a resonance peak gain frequency of fo equal to...
Problem 1: Signal conditioning and ADC Given the measurement of voltage sensor in the first 20 ms that involving a several noises causes a drift in measurement. The measurement signal fluctuates with time as a sine wave [sin(wt), ω in rad/s, t in ms] which can be approximately divided into four sections as in the following table Section I Section II on III 9St<13.2 Section IV Time (ms)OSt<5.5 Signal (volt) V-0.5+0.1 5.5 St<9 13.2 Sts20.5 V-0.6+0.1 V-0.55+0.1 V-0.65+0.1 sin(3.41x 103t)...
The following relates to Problems 11 and 12. In our office, the average time between consecutive phone calls is 1/3 hour. Problem 11: Let T be the time between now and the next call (measured in hours). How is T distributed? [1 Poisson (3) 2 Geometric (1/3); 3] Gamma (4,3); [4] Exponential (4); 5] Expo- nential (1/3) Problem 12: How is the time between now and the 4th call distributed? 1 Poisson (3) 2] Gamma (4,3); 3] Gamma (1,1/3); [4]...
3ELEC 3600. Problem H8 3-phase Wound Rotor Induction Motor This sheet is page 1. Number all pages. Consider the following induction machine THREE-PHASE INDUCTION MOTOR DATA* Ratings Line Voltage 2400 V; 72.17 A; Horsepower-300 hp stator frequency60 Hz Design W Poles -4; **Equivalent Circuit Values (in stator ohms Rated Freq)** R1 0.30000 R2'- 0.47159 X2'-1.73000; Jm2.5000 kg-m sq Thevenin Equivalent Circuit Values: RT-0.28524; slip, speed for max Torque0.1375; Rotational Loss Torque-TRL 0.18689 x (speed in rad/s) Nm X1 -1.73000 Xm67.740...
1-Clear handwriting
2-Correct answer
3-Organized
4-answer all the questions
Please
Problem 2 On the circuit on Figure P2, transi stor Q1 has a threshold voltage of Vt = 2 V and a transconductance parameter of k = 100 mA/V2. Note that Vcc = -Vee = 4.5 V. Moreover, capacitors C1, C2, and C3 can be assumed to be very large VDD 4.5.0 R3 25kQ R1 300kn C2 Vout C1 Rsig Q1 1k0 R2 200kn Vsig (R4 2kQ C3 -4.5V VSS...
Problem 1 Consider the following asymptotic Bode plots. Note that the frequencies are in Hz. For each frequency response shown in (a)-(d), do the following: 1. Determine the transfer function H(s). 2. Synthesize H(s) using the RC circuits shown in Tables 3.4, 4.2 and 4.3 of the handout. Use as few opamps, resistors and capacitors as possible to simplify your design. Note: If you prefer, you can down-scale (by a frequency scaling factor ky) the original frequency response to work...
Problem 7 Re Consider the circuit shown in (Figure 1). Suppose that va = 130 cos 10,000+ V, where is in seconds. Part A Determine the load impedance for the circuit that will result in maximum average power being transferred to the load. Express your answer in ohms to three significant figures. Enter your answer in rectangular form. View Available Hints) 21 = 20.0 20.00 22 Previous Answers Correct Here we learn how to find the impedance of the circuit...
Need help solving problem 4
Consider the magnetic circuit below. All 3 coils have equal turns N- 20. Assume the core is linear with a permeability of p 5x10 H/m, average length i- 2x 10* m, cross section area A- 1 x 10 m2 Ignore the core losses and copper winding resistance. The current flowing though the top coll is sinusoidal with an ms value of 10 A and frequency of 60 Hz) Determine the following: 1) Reluctance of the...