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For the circuit shown 11-20 μΑ, 12-2 μ A, R,-5000 Ω. RL-200 Ω, VDDP-12 V and...
For the circuit shown 11-1 ??, R1 = 5000 ?,RL= 5000 ? VDDP-12 V and VDDN-12...
For the circuit shown 11-1 ??, R1 = 5000 ?,RL= 5000 ? VDDP-12 V and VDDN-12 V and the OPAMP is ideal and you notice there is negative feedback. VOUT 5 IRI = IRL 122 V R1 (R11 .op RL (RL! The relative tolerance for this problem is 1 %. Get help: Written Example License Question 1. Points possible: 10
For the circuit shown, VIN 2 mV RI R3-60 k2, R2-R 60 k2, VDDP 12 V...
For the circuit shown, VIN 2 mV RI R3-60 k2, R2-R 60 k2, VDDP 12 V and VDDN 12 V and the OPAMP is ideal and you notice there is negative feedback. VOUT R1 R2 R3 R4 iR11 (R2) iR1) fR21 - IN V3 (VIN) The relative tolerance for this problem is 1 % Get help: Written Example License Question 1. Points possible: 10 Unlimited attempts For the circuit shown. negative feedback. Vr.-2 mV RI-R3-2 kQ. R2_R4-120 kQ. VDDp-12 V...
Help! For the circuit shown, negative feedback. Vn = 1 mV R,-R,-60 kQ, R =R, 120...
Help!
For the circuit shown, negative feedback. Vn = 1 mV R,-R,-60 kQ, R =R, 120 ㏀ VDD 9 V and VDDN 9 V and the OPAMP s ideal and you notice there is OUT =10.04 R1 R2 R3 R4 R2) IR2) V3 U1 U2 (VIN) The relative tolerance for this problem is 1 %.
For the circuit shown below, use super position to find VOUT if VIN1=24 V, VIN2=9 V,...
For the circuit shown below, use super position to find VOUT if VIN1=24 V, VIN2=9 V, R$1=2500 2. R$2=4000 2. RG=3000 Q Rp=45009, and gn=3 mAV. Vout due to Vini only=0 .V. Vout due to VIN2 only=0 VOUT due to VIN1 and VIN2=0 #V. RS1 {RS1} RS2 OUT I v2 {RS2} RG {RG} RD {RD} {VIN1} T (VIN) I={GM}*V(G) The relative tolerance for this problem is 10 %.
Figure 2 shows a feedback amplifier circuit. Rs is the source resistor and R, is the...
Figure 2 shows a feedback amplifier circuit. Rs is the source resistor and R, is the load resistor RS Vs VI RL OPAMP R2 R1 RM R3 R4 Step 1: open-loop and closed-loop circuits identification 1.1 Identify the source, the load, and the closed-loop amplifier 1.2 Identify the open-loop amplifier (**A" eireuit) and the feedback network (B" eircuit) in the closed-loop amplifier 1.3 Identify the connection type between the "A" circuit and the "B" circuit at both the input and...
A circuit is constructed with five resistors and one real battery as shown above right. We model. The real battery as an ideal emf V =12 V in series with an internal resistance r as shown above left.
A circuit is constructed with five resistors and one real battery as shown above right. We model. The real battery as an ideal emf V = 12 V in series with an internal resistance r as shown above left. The values for the resistors are: R1 = R3 = 24Ω, R4 = R5 = 112 Ω and R2 = 126 Ω. The measured voltage across the terminals of the batery is Vbattery = 11.73 V.2) What is r, the internal...
For the circuit shown in the figure (ε-3.50 V, R-5.00 Ω), calculate the following quantities. 12,0...
For the circuit shown in the figure (ε-3.50 V, R-5.00 Ω), calculate the following quantities. 12,0 V 4,00 Ω 2.00 Ω (a) Calculate the current in the 2.00 Ω resistor. (Enter the magnitude.) mA (b) Calculate the potential difference between points a and b. The ammeter shown in the figure below reads 2.94 A. Find the following. 15.0 V 7.00 Ω 5.00 Ω 2.00 Ω ε (a) 1A Consider the following figure, where ε,-12 V and ε2-9.2 v. 10.011 6.00...
emergency w R; 20 V 200 E + a) For the circuit shown, By using Millman's...
emergency
w R; 20 V 200 E + a) For the circuit shown, By using Millman's Theorem: i. Find the power dissipated by Ru. ii. What is the current in RL if R, is an open circuit? R 2000 E3 10 V E: 400 V R 1000 b) Find the equivalent resistance Rab between terminals a and b. w 1 ohm 3 ohm 3 ohm 3 ohm 3 ohm 3 ohm c) Find the value of R for maximum power...
„Problem 5: Given the circuit below 40 12 20 V 3R₂ vo {RL (2) In the...
„Problem 5: Given the circuit below 40 12 20 V 3R₂ vo {RL (2) In the voltage-divider circuit shown above, the no-load (R_L is not connected) value of v_o is 4 V. When the load resistance R L is attached * ?across the terminals a and b, v_o drops to 3 V. What is the value of RL 020 O 0 24 O 0 36 O 016
12. In the circuit shown, R,-4.00 Ω,R,-7.00 Ω, C-25.0 μF, and V,-(21.4 V)Cos[(5756 rad/s)t]. what...
Please explain!
12. In the circuit shown, R,-4.00 Ω,R,-7.00 Ω, C-25.0 μF, and V,-(21.4 V)Cos[(5756 rad/s)t]. what is the nominal value of the inductor that can be added in series with the source that wll make the power factor 1 A) 604 HH B) 606 μΗ C) 608 μΗ D) 610 μΗ E) None of these R2
12. In the circuit shown, R,-4.00 Ω,R,-7.00 Ω, C-25.0 μF, and V,-(21.4 V)Cos[(5756 rad/s)t]. what is the nominal value of the inductor that...
For the circuit shown 11-1 ??, R1 = 5000 ?,RL= 5000 ? VDDP-12 V and VDDN-12 V and the OPAMP is ideal and you notice there is negative feedback. VOUT 5 IRI = IRL 122 V R1 (R11 .op RL (RL! The relative tolerance for this problem is 1 %. Get help: Written Example License Question 1. Points possible: 10
For the circuit shown, VIN 2 mV RI R3-60 k2, R2-R 60 k2, VDDP 12 V and VDDN 12 V and the OPAMP is ideal and you notice there is negative feedback. VOUT R1 R2 R3 R4 iR11 (R2) iR1) fR21 - IN V3 (VIN) The relative tolerance for this problem is 1 % Get help: Written Example License Question 1. Points possible: 10 Unlimited attempts For the circuit shown. negative feedback. Vr.-2 mV RI-R3-2 kQ. R2_R4-120 kQ. VDDp-12 V...
Help!
For the circuit shown, negative feedback. Vn = 1 mV R,-R,-60 kQ, R =R, 120 ㏀ VDD 9 V and VDDN 9 V and the OPAMP s ideal and you notice there is OUT =10.04 R1 R2 R3 R4 R2) IR2) V3 U1 U2 (VIN) The relative tolerance for this problem is 1 %.
For the circuit shown below, use super position to find VOUT if VIN1=24 V, VIN2=9 V, R$1=2500 2. R$2=4000 2. RG=3000 Q Rp=45009, and gn=3 mAV. Vout due to Vini only=0 .V. Vout due to VIN2 only=0 VOUT due to VIN1 and VIN2=0 #V. RS1 {RS1} RS2 OUT I v2 {RS2} RG {RG} RD {RD} {VIN1} T (VIN) I={GM}*V(G) The relative tolerance for this problem is 10 %.
Figure 2 shows a feedback amplifier circuit. Rs is the source resistor and R, is the load resistor RS Vs VI RL OPAMP R2 R1 RM R3 R4 Step 1: open-loop and closed-loop circuits identification 1.1 Identify the source, the load, and the closed-loop amplifier 1.2 Identify the open-loop amplifier (**A" eireuit) and the feedback network (B" eircuit) in the closed-loop amplifier 1.3 Identify the connection type between the "A" circuit and the "B" circuit at both the input and...
For the circuit shown in the figure (ε-3.50 V, R-5.00 Ω), calculate the following quantities. 12,0 V 4,00 Ω 2.00 Ω (a) Calculate the current in the 2.00 Ω resistor. (Enter the magnitude.) mA (b) Calculate the potential difference between points a and b. The ammeter shown in the figure below reads 2.94 A. Find the following. 15.0 V 7.00 Ω 5.00 Ω 2.00 Ω ε (a) 1A Consider the following figure, where ε,-12 V and ε2-9.2 v. 10.011 6.00...
emergency
w R; 20 V 200 E + a) For the circuit shown, By using Millman's Theorem: i. Find the power dissipated by Ru. ii. What is the current in RL if R, is an open circuit? R 2000 E3 10 V E: 400 V R 1000 b) Find the equivalent resistance Rab between terminals a and b. w 1 ohm 3 ohm 3 ohm 3 ohm 3 ohm 3 ohm c) Find the value of R for maximum power...
„Problem 5: Given the circuit below 40 12 20 V 3R₂ vo {RL (2) In the voltage-divider circuit shown above, the no-load (R_L is not connected) value of v_o is 4 V. When the load resistance R L is attached * ?across the terminals a and b, v_o drops to 3 V. What is the value of RL 020 O 0 24 O 0 36 O 016
Please explain!
12. In the circuit shown, R,-4.00 Ω,R,-7.00 Ω, C-25.0 μF, and V,-(21.4 V)Cos[(5756 rad/s)t]. what is the nominal value of the inductor that can be added in series with the source that wll make the power factor 1 A) 604 HH B) 606 μΗ C) 608 μΗ D) 610 μΗ E) None of these R2
12. In the circuit shown, R,-4.00 Ω,R,-7.00 Ω, C-25.0 μF, and V,-(21.4 V)Cos[(5756 rad/s)t]. what is the nominal value of the inductor that...
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