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1) Derive the transfer function of circuits shown in Eig 2 and3 29The feedeer rartyatmisO 69HH...
P. 1. Answer the following questions about electric circuits. (1) Derive the transfer function for this...
P. 1. Answer the following questions about electric circuits. (1) Derive the transfer function for this circuit R1 Vin out (2) Derive the transfer function for this circuit. R1 C1 C2 Voue in (3) Let R, 100[0], R2-1Mn2[mF). G 200[nF] in (2). Draw the Bode plot for the circuit.
Problem #1 (100pts) Consider the circuit shown in the Figure of three simpler circuits (stages). 1) Without solving...
Problem #1 (100pts) Consider the circuit shown in the Figure of three simpler circuits (stages). 1) Without solving for the transfer function find how each stage behaves versus frequency o 2) Using this information find how the total circuit behaves versus frequency 2) Find the transfer function for each stage 3) Find the transfer function of the total circuit 4) Plot the |H(jo) 2 as a cascade Av R4 R1 ww Vin Vout R3 Ov Stage II Stage II Stage...
Find Req for the circuit shown below. R7 tk R1 1k R2 1k RO w Ik...
Find Req for the circuit shown below. R7 tk R1 1k R2 1k RO w Ik Red R4 1k RS Tk R3 1k RS w 1k Find Re, between A and B for the circuit shown below. R4 1k R1 4k R3 6k R7 w w R2 2k For the given circuit below, find the values of in, i2, i3, i4, and is. 392 iz i2 200 V 492 12114201
Problem 5. The parameters of the two inverting op-amp circuits connected in cascade, shown below, are...
Problem 5. The parameters of the two inverting op-amp circuits connected in cascade, shown below, are R1 10 kQ, R2 80 k, R3 20 ko, and R4 100 kQ. For Vi0.15 V, determine Vo1, Vo, i,, i2, i3, and i4 Also, determine the current into or out of the output terminal of each op-amp. Rs
Derive a solution for the voltage across the capacitor C1 in Fig. 1 as a function...
Derive a solution for the voltage across the capacitor C1 in Fig. 1 as a function of time from t 0 ms to t 125 ms if the switches are controlled as shown in Fig. 2. The initial capacitor voltage is -9 V. Show all of your work. 1. S4 R3 R1 S1 V1+ C1+ R2 V2+ yti Fig. 1. Switched RC circuit. V1-9 V, V2--15 V, R14.7 k2, R2-3.3 kQ, R3 2.2
Determine the complex transfer function T(s) = V/V; for the circuit shown below. Specify it as...
Determine the complex transfer function T(s) = V/V; for the circuit shown below. Specify it as a function of the complex frequency, s, and the symbols for the resistors and capacitor. On the attached graph, plot the magnitude of the complex transfer function T(jw) in decibels as a function of the frequency f of the source as f varies from 1 Hz to 1 MHz. Assume that the op amp is ideal. Use as the numerical values for the resistors...
Please answer all questions Calculations 1. Derive the transfer functions for the circuits shown in Figs....
Please answer all questions
Calculations 1. Derive the transfer functions for the circuits shown in Figs. 1(a), 1(b) and 1(c): VBP VHP (s) Vi НВР(s) — VLP(S) (S) Ннp(s) — Vi HLP(s) Vi Re C4 C2 VBP R2 R1 VHP VLP R. R4 R3 C2 C1 V (c) (b) (a) Figure 1: Second order (a) lowpass filter (b) highpass filter (c) bandpass filter (1) P(s) H(s)Q(s) Express the transfer functions as that negative powers of s are not allowed in...
Question 9: Circuit Analysis R4 R2 W R1 V6 R5 R3 (+) R7 8 2. If...
Question 9: Circuit Analysis R4 R2 W R1 V6 R5 R3 (+) R7 8 2. If Vi 6 V and V6 18 V, find Let Ri, R2, and R5 4 0, but R3, R4, and R7 the value of I7.
Please help 1. For the circuits shown in Figs. 3(a) and 3(b), derive the transfer functions...
Please help
1. For the circuits shown in Figs. 3(a) and 3(b), derive the transfer functions in the following forms LP UL and express wL, WH, KL and KH in terms of resistors and capacitors HP Figure 3: First order (a) lowpass filter (b) highpass filter The frequencies wL and wH are known as: . Pole frequency, defined as the root of the denominator of H(s) . Corner frequency, defined as the frequency at which the gain is 0.707 times...
P. 1. Answer the following questions about electric circuits. (1) Derive the transfer function for this circuit R1 Vin out (2) Derive the transfer function for this circuit. R1 C1 C2 Voue in (3) Let R, 100[0], R2-1Mn2[mF). G 200[nF] in (2). Draw the Bode plot for the circuit.
Problem #1 (100pts) Consider the circuit shown in the Figure of three simpler circuits (stages). 1) Without solving for the transfer function find how each stage behaves versus frequency o 2) Using this information find how the total circuit behaves versus frequency 2) Find the transfer function for each stage 3) Find the transfer function of the total circuit 4) Plot the |H(jo) 2 as a cascade Av R4 R1 ww Vin Vout R3 Ov Stage II Stage II Stage...
Find Req for the circuit shown below. R7 tk R1 1k R2 1k RO w Ik Red R4 1k RS Tk R3 1k RS w 1k Find Re, between A and B for the circuit shown below. R4 1k R1 4k R3 6k R7 w w R2 2k For the given circuit below, find the values of in, i2, i3, i4, and is. 392 iz i2 200 V 492 12114201
Problem 5. The parameters of the two inverting op-amp circuits connected in cascade, shown below, are R1 10 kQ, R2 80 k, R3 20 ko, and R4 100 kQ. For Vi0.15 V, determine Vo1, Vo, i,, i2, i3, and i4 Also, determine the current into or out of the output terminal of each op-amp. Rs
Derive a solution for the voltage across the capacitor C1 in Fig. 1 as a function of time from t 0 ms to t 125 ms if the switches are controlled as shown in Fig. 2. The initial capacitor voltage is -9 V. Show all of your work. 1. S4 R3 R1 S1 V1+ C1+ R2 V2+ yti Fig. 1. Switched RC circuit. V1-9 V, V2--15 V, R14.7 k2, R2-3.3 kQ, R3 2.2
Determine the complex transfer function T(s) = V/V; for the circuit shown below. Specify it as a function of the complex frequency, s, and the symbols for the resistors and capacitor. On the attached graph, plot the magnitude of the complex transfer function T(jw) in decibels as a function of the frequency f of the source as f varies from 1 Hz to 1 MHz. Assume that the op amp is ideal. Use as the numerical values for the resistors...
Please answer all questions
Calculations 1. Derive the transfer functions for the circuits shown in Figs. 1(a), 1(b) and 1(c): VBP VHP (s) Vi НВР(s) — VLP(S) (S) Ннp(s) — Vi HLP(s) Vi Re C4 C2 VBP R2 R1 VHP VLP R. R4 R3 C2 C1 V (c) (b) (a) Figure 1: Second order (a) lowpass filter (b) highpass filter (c) bandpass filter (1) P(s) H(s)Q(s) Express the transfer functions as that negative powers of s are not allowed in...
Question 9: Circuit Analysis R4 R2 W R1 V6 R5 R3 (+) R7 8 2. If Vi 6 V and V6 18 V, find Let Ri, R2, and R5 4 0, but R3, R4, and R7 the value of I7.
Please help
1. For the circuits shown in Figs. 3(a) and 3(b), derive the transfer functions in the following forms LP UL and express wL, WH, KL and KH in terms of resistors and capacitors HP Figure 3: First order (a) lowpass filter (b) highpass filter The frequencies wL and wH are known as: . Pole frequency, defined as the root of the denominator of H(s) . Corner frequency, defined as the frequency at which the gain is 0.707 times...
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