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9.Synthesize the transfer function 100 Vn (s) s2 +100s +10 using the circuit below. Let Yı...
27. (a) The circuit below has transfer function H(s)--out . It is known that L =0.5...
27. (a) The circuit below has transfer function H(s)--out . It is known that L =0.5 H ist andRI = 4 Ω and R2=2Q. (i) Compute the transfer function. (ii) Compute the COMPLETE range of for which the circuit is BIBO stable. R2 out C : 0.25 F. Compute H(s)-out ) Determ ne the complete range of m for which Vin(s) (b) Let R= 2 Ω the circuit is BIBO stable in out mvtt) out
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.
Given the circuit below: R3 C1 Vout C2 R1 R3 Vin R2 ts 1 a) derive the transfer function between ...
Given the circuit below: R3 C1 Vout C2 R1 R3 Vin R2 ts 1 a) derive the transfer function between the input and the output in terms of R1,C1,R2,C2 b) For this and all other parts below, assume Izl<Ipl, i..e that D(s) is a lead-type compensator. The transfer function is written in the following format ts 1 Express quantities K, z, p using R1,C1,R2,C2 Also, express Κα, α, τ using K,z, p c) Observe the values of s-jw on the...
QUESTION #2 PLEASE 1. Derive the transfer function for the circuit shown below. Plot H(s) versus...
QUESTION #2 PLEASE
1. Derive the transfer function for the circuit shown below. Plot H(s) versus frequency in Hertz, on a semilog scale. Ri 11.3 k Ri 22.6 k R R = 68.1 kN R3 C C 0.01 uF R2 Vout(s) Vin(s) C2 10 (s+5) H(s) = (s+100)(s5000) , (a) draw the magnitude Bode plot 2. For the transfer function and find the approximate maximum value of (H(jw) in dB, (b) find the value of w where 1 for w>5...
te tt 9 Let S be the surface defined by r2 y-22= 1 and 0 15...
te tt 9 Let S be the surface defined by r2 y-22= 1 and 0 15 points by the normal direction toward the z-axis. Find the flux of the velocity field V 1and oriented (z2-ry2)i+(2.2y -yz2)j+ (y2z- 2r2)k across S Solution. To use Gauss Theorem, define C and C2 such that C1 {(a, y, z ) | a + y? < 2, z = 1} C2={(r,y,)| +y1.0} 11 TALK X W P S ww F6 & # 2 3 4...
3. Work the following problems: a. The transfer function of a system is: Y(s)/R(s) = 15(s+1)/(s2+9s+14)....
3. Work the following problems: a. The transfer function of a system is: Y(s)/R(s) = 15(s+1)/(s2+9s+14). Determine y(t) when r(t) is a unit step input. b. Consider the following system: R(s)_ 0 G(s) i. Find the closed-loop transfer function Y(s)R(S) when G(s) = 10/(S2+2s+10) ii. Determine Y(s) when the input R(s) is a unit step. iii. Compute y(t).
Identify the transfer function 10/; of the RL circuit shown below. Express the transfer function using...
Identify the transfer function 10/; of the RL circuit shown below. Express the transfer function using Wo= RIL. i(t) R ele L O H (@) II = WO j + 1 O H(@) = 1+ Wo O H (0) jo 1+ W0 1 O H(0) = 00 1+.
Identify the transfer function 10/; of the RL circuit shown below. Express the transfer function using...
Identify the transfer function 10/; of the RL circuit shown below. Express the transfer function using Wo= RIL. i(t) R ele L O H (@) II = WO j + 1 O H(@) = 1+ Wo O H (0) jo 1+ W0 1 O H(0) = 00 1+.
For the circuit shown below, let Vcc 9 V R2 RE-0.11 kQ, R1 3.6 k2. and R2 -5.6 kQ. The transistor parameters are β-200, VBE(on)-OTV, VA-100 V and VT = 0.026 V. (a) Determine the quiescent value o...
For the circuit shown below, let Vcc 9 V R2 RE-0.11 kQ, R1 3.6 k2. and R2 -5.6 kQ. The transistor parameters are β-200, VBE(on)-OTV, VA-100 V and VT = 0.026 V. (a) Determine the quiescent value of IEQ (b) Find the small-signal voltage gain Av Vo/vs (c) Determine the output resistance R, looking into output terminals Av= 0.5589 Ro-0.4688 Ω Ro-0.9118 Ω leQ- 23.76 mA Ra " 0.6538 Ω leo 39.52 mA A, 0.9938
For the circuit shown below,...
Using nodal analysis find: KCLs/KVLs for Nodes A B C D E F The transfer function H(s) of this circuit MATLAB or by hand is fine C3 R2 C2 R5 23 Vo CZ a lAF R2 = 10042 RH-100 C3 R2 C2 R5 23 V...
Using nodal analysis find:
KCLs/KVLs for Nodes A B C D E F
The transfer function H(s) of this circuit
MATLAB or by hand is fine
C3 R2 C2 R5 23 Vo CZ a lAF R2 = 10042 RH-100
C3 R2 C2 R5 23 Vo CZ a lAF R2 = 10042 RH-100
27. (a) The circuit below has transfer function H(s)--out . It is known that L =0.5 H ist andRI = 4 Ω and R2=2Q. (i) Compute the transfer function. (ii) Compute the COMPLETE range of for which the circuit is BIBO stable. R2 out C : 0.25 F. Compute H(s)-out ) Determ ne the complete range of m for which Vin(s) (b) Let R= 2 Ω the circuit is BIBO stable in out mvtt) out
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.
Given the circuit below: R3 C1 Vout C2 R1 R3 Vin R2 ts 1 a) derive the transfer function between the input and the output in terms of R1,C1,R2,C2 b) For this and all other parts below, assume Izl<Ipl, i..e that D(s) is a lead-type compensator. The transfer function is written in the following format ts 1 Express quantities K, z, p using R1,C1,R2,C2 Also, express Κα, α, τ using K,z, p c) Observe the values of s-jw on the...
QUESTION #2 PLEASE
1. Derive the transfer function for the circuit shown below. Plot H(s) versus frequency in Hertz, on a semilog scale. Ri 11.3 k Ri 22.6 k R R = 68.1 kN R3 C C 0.01 uF R2 Vout(s) Vin(s) C2 10 (s+5) H(s) = (s+100)(s5000) , (a) draw the magnitude Bode plot 2. For the transfer function and find the approximate maximum value of (H(jw) in dB, (b) find the value of w where 1 for w>5...
te tt 9 Let S be the surface defined by r2 y-22= 1 and 0 15 points by the normal direction toward the z-axis. Find the flux of the velocity field V 1and oriented (z2-ry2)i+(2.2y -yz2)j+ (y2z- 2r2)k across S Solution. To use Gauss Theorem, define C and C2 such that C1 {(a, y, z ) | a + y? < 2, z = 1} C2={(r,y,)| +y1.0} 11 TALK X W P S ww F6 & # 2 3 4...
3. Work the following problems: a. The transfer function of a system is: Y(s)/R(s) = 15(s+1)/(s2+9s+14). Determine y(t) when r(t) is a unit step input. b. Consider the following system: R(s)_ 0 G(s) i. Find the closed-loop transfer function Y(s)R(S) when G(s) = 10/(S2+2s+10) ii. Determine Y(s) when the input R(s) is a unit step. iii. Compute y(t).
Identify the transfer function 10/; of the RL circuit shown below. Express the transfer function using Wo= RIL. i(t) R ele L O H (@) II = WO j + 1 O H(@) = 1+ Wo O H (0) jo 1+ W0 1 O H(0) = 00 1+.
Identify the transfer function 10/; of the RL circuit shown below. Express the transfer function using Wo= RIL. i(t) R ele L O H (@) II = WO j + 1 O H(@) = 1+ Wo O H (0) jo 1+ W0 1 O H(0) = 00 1+.
For the circuit shown below, let Vcc 9 V R2 RE-0.11 kQ, R1 3.6 k2. and R2 -5.6 kQ. The transistor parameters are β-200, VBE(on)-OTV, VA-100 V and VT = 0.026 V. (a) Determine the quiescent value of IEQ (b) Find the small-signal voltage gain Av Vo/vs (c) Determine the output resistance R, looking into output terminals Av= 0.5589 Ro-0.4688 Ω Ro-0.9118 Ω leQ- 23.76 mA Ra " 0.6538 Ω leo 39.52 mA A, 0.9938
For the circuit shown below,...
Using nodal analysis find:
KCLs/KVLs for Nodes A B C D E F
The transfer function H(s) of this circuit
MATLAB or by hand is fine
C3 R2 C2 R5 23 Vo CZ a lAF R2 = 10042 RH-100
C3 R2 C2 R5 23 Vo CZ a lAF R2 = 10042 RH-100
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