Exercise 1: Write the Voltage Node Equations for the following circuit and put them in a Matrix form for solution. Write

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Exercise 1 Write The Voltage Node Equations For The Following Circuit And Put Them In A Matrix Form For Solution Write 1 (42.01 KiB) Viewed 36 times

Exercise 1: Write the Voltage Node Equations for the following circuit and put them in a Matrix form for solution. Write the Y- matrix equation. Z₂ Z₂ Z₂ Z₁ Exercise 2: Replace the Z-Z-Z-Z-100, Z=Z-50 and Z, with the series resonant circuit (given below). Assume V= 1Find the following: (a) Resonant Frequency -10 (b) Plot of magnitude and phase of the load Voltage (V) between 1 and 10 MHz (c) Plot of Real and Imaginary parts between 1 and 10 MHz (write a function magph2realimag.m 34-1μlf G₂ = Saf (d) Plot Time domain graph at the resonant frequency between 0:1/100:4°T, (write a function magph2time.m resonant (c) Plot Time domain graph at twice the frequency between 0:T/100:4 T (write a function magph2time.m Exercise 3: Replace the Z Z-Z-100, Z- Z-50 and Z, = Z₂ with the parallel resonant circuit (given below). Assume V= 1Find the following: (a) Resonant Frequency (b) Plot of magnitude and phase of the load Voltage (V₁) between 1 and 10 MHz (c) Plot of Real and Imaginary parts between 1 and 10 MHz (write a function magph2realimag.m R₁ - 1000 = L mn G₁₂ = - 5nF (d) Plot Time domain graph at the resonant frequency between 0:1/100:4*T, (write a function magph2time.m L₁1μH (e) Plot Time domain graph at twice the resonant frequency between 0:T/100:4*T, (write a function magph2time.m -MW+" N Z₂