Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Transcribed Image Text:10000
The transfer function of a first order circuit is T(s) :
s+1000
(a) Identify the type of gain response
(b) Find the cut off frequency and the passband gain
(c) Design a circuit to realize the transfer function
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- Problem 5. Find the transfer function Tv(s) = V₂(s)/V₁(s) of the circuit in Figure 5. (a) Find the de gain, infinite frequency gain, and cutoff frequency. Identify the type of gain response. (b) Sketch the straight-line approximation of the gain response. (c) Calculate the gain at w = 0.25wc, 0.5wc, and wc. (d) Use MATLAB to plot the Bode magnitude gain response of the circuit. Validate your answers for part (c). Help on part D + 470 Ω ww v₁(t) 50 mH 470 Ω Figure 5: + v₂(t)arrow_forwardPleasee quicklyyarrow_forwardAs an entry engineer you are assigned the task of designing an averaging circuit of three voltage signals. The signals can come from various sources, like sensors. You decide to design an operational amplifier-based circuit as the one shown below: RE R₁ V10- www R₂ V20 V30 R3 વ્ઝ ટ્રાંસ્ક્રાઇબ કરેલ ટેક્સ્ટ બતાવો C -vo Why would you select an operational amplifier-based circuit? Determine an expression for the output voltage in terms of the input voltages. Determine the relationship between the components of the circuit such that it acts as an averaging system. Select values of components to realize the averaging system.arrow_forward
- Can anyone help me with this circuits question. I don’t need the design of the BW LPF just the hand calculations. Thank youarrow_forward3. In this problem, use the two closed loop systems given in the figure to answer the questions below. 4 R(s) K₁ 0.0099 In thin K₂ Y(s) R(s) K₁ 4 S(s) = 0.09 K₂ 0.09 (a) Show that these two systems have the same transfer function for K₁ = K₂ = 100 (b) Using the definition of sensitivity, S(s), for each system calculate the sensitivity to the parameter K₁ with K₁ and K₂ as variables. Recall: Y(s) OG G OG Gal (c) Substitute K₁ = K₂ = 100 into each S(s) and compare the sensitivities to parameter K₁.arrow_forward
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