KUCILIUIT I 12 POML3) T./4 T./2 -Vm Calculate the rms of the signal above. The signal...
Please help me write a code for this in Matlab T = 1 millisecond Vm = 1 volt (amplitude voltage) t = linspace(-T, 2*T, 3001) The following pararameter is given v(t) = Vm - (Vm/T)t for 0<= t <= T 0 elsewhere I need to modify the vector v so that is represents a periodic function with a period T over this time period (hint: it should look like a sawtooth), and plot v vs t over the range from...
2- Find the rms value of signal g(t) shown in Figure 2 over the period (0,5). g(t) - -- Figure 2.
1. For the function (t) below, T 2 and Vm-100 V. vt) 3 2 012 3 (a) Sketch v'(t) and derive the Fourier coefficients for '(t). (b) Use your results from part (a) to determine for Fourier coefficients for v(t). Express your solution in the complex form of the Fourier series, nugt and verify your solution by plotting your results using Matlab. 2. Assume that the signal above is the input to the bandpass filter shown below. y (t (a)...
4. Consider a sinusoidal voltage signal of the form: v(t)=10sin(2(pi)1000t) Determine: a. average value of v(t) b. maximum value of v(t) c. minimum value of v(t) d. RMS (root mean square) value of v(t) Now assume that this signal is driving a 25Ω load. Determine: e. average power dissipated in the load f. maximum instantaneous power dissipated in the load g. Minimum instantaneous power dissipated in the load Also, provide: h. Frequency in Hz i. Period, in ms j. frequency...
One of the most important classes of time dependent signals are periodic signals. Periodic signals satisfy tho following signal equations, x(t) X(t) x(t+nt) for n 2,3. The periodic signals to be observed in this laboratory assignment are shown below. In all the examples A represents the amplitude of the signal and may be given as the measurement from 0 to the peak value A, Apk or can be given as the measurement between A and -A which defines a peak-to-peak...
Q1- Calculate the RMS (root mean square) value of the waveform given in Fig. 1. i(t) - A12 Ai/21 0 0 DTG Ts Fig. 1
Consider the continous time signal x(t) - u(t) where u(t) is the unit step, sampled at a sampling period Ts- 1/4 to produce a discrete time signal rn] (a) Plot the signal r[n] over an appropriate interval (b) Compute and plot the short term energy for 10 successive blocks using a rectangular window of width 4 (c) Compute and plot the Zero Crossing Rate for 10 successive blocks using a rectangular window of width 4
Consider the continous time signal...
The rms value for a time-dependent current I(t) is defined as I_rms = [1/T integral^T_0 I^2(t) dt]^1/2, where T is the period. Following this definition, I_rms for a sinusoidal current I(t) = I_0 sin(2 pi t/T) is
An AC voltage source has an output of AV = 168.0 sin(531t) Volts. Calculate the RMS voltage. 1.19x102 v You are correct. Your receipt no. is 156-2739 Previous Tries What is the frequency of the source? Submit Answer Tries 0/12 Calculate the voltage at time t = 1/116 s. Submit Answer Tries 0/12 Calculate the maximum current in the circuit when the generator is connected to an R = 50.5 12 resistor. Submit Answer Tries 0/12
Question 1.7 The period T is the time from one peak of a signal to the next. Use the analysis feature to find T (Hint: determine the time period for several peaks and divide by the number of peaks.) Show your calculation. T1=0.0054s, T2=0.0156s, T3=0.0252, T4=0.0454s, T5= 0.0554s T=0.0054+0.0156+0.0252+0.0454+0.0554_= 0.02945 Question 1.8 The period of a signal is the inverse of the frequency (T = 1/8). How does your measurement of period compare with the frequency setting on the signal...