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(8) Consider the circuit from below as RC-low pass filter. Please calculate the gain magnitude and the phase, Show all the steps of your calculation (15 points) ORC + R E, (8) Consider the c...
Consider the low pass filter RC circuit where Ri+ E E(t) The rise time t, is defined as the time required for a unit step response to go from 10% to 90% of its final value. Show that 0.35 3dB where f3dB-the 3dB bandwidth (in Hz) of the filter 2TTRC
PROBLEM 5 (20 POINTS) FOR THE R-C LOW PASS FILTER SHOWN IN THE BELOW FIGURE : (a) FIND THE CRITICAL FREQUENCY, Fc (B CALCULATE THE MAGNITUDE A. AND THE PHASE ANGLE OF THE VOLTAGE GAIN AT THE FOLLOWING FREQUENCIES: f=0.14,0.5fe, fe, 28 and 10f SKETCH THE MAGNITUDE OF THE VOLTAGE GAIN, A VERSUS FREQUENCY USING A LOG- SCALE FOR THE FREQUENCY AXIS O) SKETCH A PHASE PLOT OF FREQUENCY VERSUS 31.e. For C) AND (dl) USE THE VALUES FOR Au...
please answer all questions and show all steps Vout Figure 2: RC Circuit 2. (15pts) Derive the equation for the frequency response H(ju) of the RC circuit in Figure 2. Take the inverse transform of H (ju) to compute the impulse response h(t). Compute the magnitude response, H(jw). Is this a low-pass or high pass filter? Explain your answer. 3. (10pts) Let h(t)2u(t) and (t)(t). Use the Fourier transform to compute the output of the system
Answer a, b, c, d A circuit consists of a resistor R connected in series with a capacitor C, as shown in Fig.1 EL Eo Fig 1. The capacitor C is connected in series with the resistor R The equation which describes this circuit when subject to a step function is given below di 0.3.21-9 dt a) What is the time constant r of this system? b) Assume zero initial condition (0 when r0), find the solution i() of the...
Please answer all parts thank you 6. [15 POINTS] Consider a passive low-pass filter as shown below. 1k2 + - m - + Vin(t) 1 mF Vout(t) a) Derive a transfer function for the above circuit. b) Derive a time-domain expression for the unit impulse response of the circuit. Also, plot the impulse response as a function of time. c) Derive a time-domain expression for the unit step response of the circuit. Also, plot the step response as a function...
Active Low-pass and High-pass Filters for Crossover Circuitry (PSPICE) Design a first order active high-pass filter with cut-off frequency of 1 kHz & gain 20dB. Design a first order active low-pass filter with cut-off frequency of 1 kHz & gain 20dB. Plot the magnitude and phase responses of the active high-pass and low-pass filters you have designed using PSpice (Use UA741 Op amp and ±12V dual supply). Connect your active low-pass and high-pass filters as shown in Fig. 1-b. Assume...
In the series RC circuit below, with R -6.1 k ohms& C 72.5 nF, at what angular frequency [rad/s] does the capacitor AC voltage reduce to its DC value (accurate to 1%)? C output Answer: In the series RC circuit below, with R-1.2 k ohms & C 92.8 nF, calculate the magnitude of the voltage 'gain' of the circuit (Vout/ Vsl), for a driving frequency of 0.1 kHz, to 1% accuracy. Coutput Answer For a series RLC circuit as shown...
For the low-pass filter circuit shown in Fig 2 200mH 3k Ω out in Fig 2 (i) (ii) (iii) Write an expression for the transfer function of the circuit State the value of the dc gain of the filter circuit in dB Calculate the cutoff frequency of the filter b. Sketch the frequency response of the voltage gain and phase shift for the filter shown in Fig 2. Show all the values and required information in both graphs Magnitude Frequency...
10 Design a low pass filter using a resistor R and a capacitor C of 0.2uF. Sketch the circuit diagram, mark thoe output voltage Vo, calculate the resistance value for R if 3dB frequency is 2500 Hz, and write out the voltage gain vs ω (for both magnitude and phase). Repeat the design if R is given as 30 Ohm and C is unknown.
For the low-pass filter circuit shown in Fig 2 3k Ω 200mil in out Fig 2 3.a. Use a 2.2nF capacitor to design a high-pass filter to have a cutoff frequency of Skn Draw a schematic of your design. Show all component values and voltages c. Sketch the frequency response of the voltage gain and phase shift Magnitude dB Frequency Hz Phase Frequency Hz For the low-pass filter circuit shown in Fig 2 3k Ω 200mil in out Fig 2...