0000 RS w Problem 3: (9 points) The elements shown on the right circuit are R7-10000...
Problem 3: /25 For the circuit shown below, use frequency-domain circuit analysis techniques to determine (a) the voltage transfer function Ho) of the circuit; (b) the magnitude response H(@) of the circuit; and (c) the phase response (0) of the circuit. (d) Based on the results of parts (a) - (c), identify the type of filter circuit shown. с R + + Vin(t) 0000 L Vout(t)
Vout 1) For the circuit shown to the right a. Use your knowledge of reactances to determine the high, and low frequency behavior. What kind of filter is this? b. Derive a function for the gain as a function of frequency. Show that it limits correctly at high and low frequencies. c. Find an expression for the characteristic frequency for this circuit
Problem 4: /25 For the circuit shown below, use frequency-domain circuit analysis techniques to determine (a) the voltage transfer function Hw) of the circuit; (b) the magnitude response H(o) of the circuit; and (c) the phase response (0) of the circuit. (d) Based on the results of parts (a) - (c), identify the type of filter circuit shown. R L 10000 + + Vout(t)
Problem 2: /25 For the circuit shown below, use frequency-domain circuit analysis techniques to determine (a) the voltage transfer function H(o) of the circuit; (b) the magnitude response H(o) of the circuit; and (c) the phase response (0) of the circuit. (d) Based on the results of parts (a) - (c), identify the type of filter circuit shown. L 10000 + + R Vout(t)
3. In the circuit shown below, the current flowing through Rs is to be measured by an ampermeter (a) What is the ampermeter reading if the internal resistance (R) of the ampermeter is zero. (b) Assume the ampermeter internal resistance (Rm) is 100 W, what is the measurement error caused by the resistance of the measuring instrument? Circuit Parameters Vsı = 12 V Ry = 400 Vs2 = 2 V R2 =6002 Rş = 1k R4 = 5000 Rs =...
Problem 1 (25 Pts) Consider the OP amp circuit shown below with R = 100kN and C = 1(10): Parta) 10 pts Find the complex transfer function for the circuit in terms of frequency f(Hz). Part b) 5 pts Compute the gain of at as a function of frequency f(Hz). Parte) 10 pts Compute the corresponding gains at 100, 1000, 10000 Hz. R 3R 5R Vå w V
Question 2 (20 points) Consider the circuit below with Vị as the input and v, as the output. Let the component values be R = 33.2, C = 470uF and L = 250mH. R + + yo(t) L - Answer the following questions using the formulas from the lecture slides: 1. What is the type of this filter? (2 points) 2. Write down the expression for the transfer function H(w) of the circuit. (4 points) 3. Write down the expression...
experimental methodology - please solve ASAP Problem 1 (25 Pts) Consider the OP amp circuit shown below with R = 100kN and C = 1(10)-SF: Part a) 10 pts Find the complex transfer function for the circuit in terms of frequency f (Hz). Part b) 5 pts Compute the gain ofat as a function of frequency f (Hz). Part e) 10 pts Compute the corresponding gains at 100, 1000, 10000 Hz. R 3R 5R Vi m vo
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 Consider a voltage amplifier having a frequency response of the low-pass STC 1ype with a de gain of 60 dB and a 3-dB frequency of 1000 Hz Find the gain in dB at f- 10 Hz, 10kHz, 100 kHz, and 1 MHz Problem For the circuit shown below first, evalusteand the coresponding comer froquency. Second evalmt and the corresponding comer froquency. At the end caloulate overall transfer function T(w)= and reurite it in the standard fom ( and draw...