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struggling with how to find Vi for this problem
Calculate v./v; (Non-Inverting Amplifier) R2 = 102...
2. Consider this non-inverting op-amp amplifier This non-inverting amplifier circuit uses an operational amplifier as a...
2. Consider this non-inverting op-amp amplifier This non-inverting amplifier circuit uses an operational amplifier as a building block. Do around. The op-amp's gain is a "little a"), but the overall amplifier's gain is A Cbig A. Derive the value of the output voltage, ve, as a function of the input voltage not confuse the non-inverting amplifier with the operational amplifier that it is built a. and the op-amp's gain a. What is the overall amplifier's gain Avo/v? (20pts) b. We...
Problem 3: a) For the inverting amplifier designed using low noise amplifier AD743 shown on the...
Problem 3: a) For the inverting amplifier designed using low noise amplifier AD743 shown on the bottom of the page with Ri=10kOhm and Rf=220kOhm, what should be the value of the resistor connected to the non-inverting input (R2) to minimize the output offset due to input bias current? b.) Even if the R2 value you calculated is used, could there be an output offset due to a difference between the two input bias currents? What is the maximum value of...
4. A non-inverting amplifier shown below is to be constructed with a uA 741C Op. Amp....
4. A non-inverting amplifier shown below is to be constructed with a uA 741C Op. Amp. It is to have a gain of 1001 with R1=100 ohms. Assume the GBP (non- inverting) = 100 kHz (a) Specify value of the resistor R2. (b) Sketch the Bode plot for this amplifier using specific numerical values and indicate the cut-off frequency. R2 R w B Op-amp + + o V HU TH
4. A non-inverting amplifier shown below is to be constructed with a uA 741C Op. Amp....
4. A non-inverting amplifier shown below is to be constructed with a uA 741C Op. Amp. It is to have a gain of 1001 with R1=100 ohms. Assume the GBP (non- inverting) = 100 kHz (a) Specify value of the resistor R2. (b) Sketch the Bode plot for this amplifier using specific numerical values and indicate the cut-off frequency. R2 R w B Op-amp + + o V HU TH
c) In estimating DC imperfections (input offset voltage, input offset current and the inverting amplifier with...
c) In estimating DC imperfections (input offset voltage, input offset current and the inverting amplifier with nominal gain of -100 using 1 current) of an op-map, an and 10MQ resistors is implemented using the op-amp as shown in Fig 2(a) below R2 10MQ R 100k Vi Vo Figure 2(a): Inverting amplifier Measurements are conducted on the output voltage of the inverting amplifier under the following conditions: (i) the input (V) is open circuited and the output voltage is found to...
Note: Show all your work to get partial credit. 1. Consider a non-inverting operational amplifier. Let...
Note: Show all your work to get partial credit. 1. Consider a non-inverting operational amplifier. Let us assume that the feedback resister Rr 10K. Find the input resister Rin to get the voltage gain of 11. (5 points) 2. Calculate the output voltage of the summing amplifier shown in Fig. 1. (10 points) R1 Rf R2 Vout R3 Fig. 1 Summing Amplifier
Part B - Non-inverting Amplifier Vina - Vout Figure 2: Schematic for Part B 1. Use...
Part B - Non-inverting Amplifier Vina - Vout Figure 2: Schematic for Part B 1. Use KCL/KVL to determine the expression (Ag = Yout) for this amplifier. (4 points) 2. Calculate the theoretical gain Ag = for this amplifier using R1 = 1k2 and R2 = 10 k 2. (1 points) A: -
2. Construct the non-inverting amplifier circuit below. Then, obtain input-output transfer function for R1=1K and R2=2.2K,...
2. Construct the non-inverting amplifier circuit below. Then, obtain input-output transfer function for R1=1K and R2=2.2K, E= 9V. Use a variable de voltage (5V de source and a variable 1k potentiometer) source as the input and measure the output voltage for different inputs. Draw the input-output transfer function from the measured input-output voltages. Proteus Table Vin Vout Measured Table Vin Vout Q2) Determine the voltage gain VO / Vin of the non-inverting amplifier. What is the output voltage range over...
8. (5-1) Calculate the ratio v2/vi. First assume that the operational amplifier is ideal, then redo...
8. (5-1) Calculate the ratio v2/vi. First assume that the operational amplifier is ideal, then redo the problem assuming the opamp gain is a 10. Use R1 6.9 kQ, R2 2.7kQ. Ideal opamp v2/vi - Finite gain v2/vi R1 R2 V. V. 2
PART B: OPAMP as a non-inverting amplifier a) Implement the following circuit using the LM741 and...
PART B: OPAMP as a non-inverting
amplifier
a) Implement the following circuit using the LM741
and energize the integrated circuit 741 with + 15v and -15v. In
addition, feed the circuit with a 1 Vpp and 1KHz sinusoidal signal.
Values: R2 = 10kΩ, R1 = 1KΩ
b) Obtain the graph of the output voltage and the input voltage.
Explain the differences between the graphs and determine
the circuit gain.
c) Change the R2 resistor with a 5.1k Ω resistor. Obtain...
2. Consider this non-inverting op-amp amplifier This non-inverting amplifier circuit uses an operational amplifier as a building block. Do around. The op-amp's gain is a "little a"), but the overall amplifier's gain is A Cbig A. Derive the value of the output voltage, ve, as a function of the input voltage not confuse the non-inverting amplifier with the operational amplifier that it is built a. and the op-amp's gain a. What is the overall amplifier's gain Avo/v? (20pts) b. We...
4. A non-inverting amplifier shown below is to be constructed with a uA 741C Op. Amp. It is to have a gain of 1001 with R1=100 ohms. Assume the GBP (non- inverting) = 100 kHz (a) Specify value of the resistor R2. (b) Sketch the Bode plot for this amplifier using specific numerical values and indicate the cut-off frequency. R2 R w B Op-amp + + o V HU TH
4. A non-inverting amplifier shown below is to be constructed with a uA 741C Op. Amp. It is to have a gain of 1001 with R1=100 ohms. Assume the GBP (non- inverting) = 100 kHz (a) Specify value of the resistor R2. (b) Sketch the Bode plot for this amplifier using specific numerical values and indicate the cut-off frequency. R2 R w B Op-amp + + o V HU TH
c) In estimating DC imperfections (input offset voltage, input offset current and the inverting amplifier with nominal gain of -100 using 1 current) of an op-map, an and 10MQ resistors is implemented using the op-amp as shown in Fig 2(a) below R2 10MQ R 100k Vi Vo Figure 2(a): Inverting amplifier Measurements are conducted on the output voltage of the inverting amplifier under the following conditions: (i) the input (V) is open circuited and the output voltage is found to...
Note: Show all your work to get partial credit. 1. Consider a non-inverting operational amplifier. Let us assume that the feedback resister Rr 10K. Find the input resister Rin to get the voltage gain of 11. (5 points) 2. Calculate the output voltage of the summing amplifier shown in Fig. 1. (10 points) R1 Rf R2 Vout R3 Fig. 1 Summing Amplifier
Part B - Non-inverting Amplifier Vina - Vout Figure 2: Schematic for Part B 1. Use KCL/KVL to determine the expression (Ag = Yout) for this amplifier. (4 points) 2. Calculate the theoretical gain Ag = for this amplifier using R1 = 1k2 and R2 = 10 k 2. (1 points) A: -
2. Construct the non-inverting amplifier circuit below. Then, obtain input-output transfer function for R1=1K and R2=2.2K, E= 9V. Use a variable de voltage (5V de source and a variable 1k potentiometer) source as the input and measure the output voltage for different inputs. Draw the input-output transfer function from the measured input-output voltages. Proteus Table Vin Vout Measured Table Vin Vout Q2) Determine the voltage gain VO / Vin of the non-inverting amplifier. What is the output voltage range over...
8. (5-1) Calculate the ratio v2/vi. First assume that the operational amplifier is ideal, then redo the problem assuming the opamp gain is a 10. Use R1 6.9 kQ, R2 2.7kQ. Ideal opamp v2/vi - Finite gain v2/vi R1 R2 V. V. 2
PART B: OPAMP as a non-inverting
amplifier
a) Implement the following circuit using the LM741
and energize the integrated circuit 741 with + 15v and -15v. In
addition, feed the circuit with a 1 Vpp and 1KHz sinusoidal signal.
Values: R2 = 10kΩ, R1 = 1KΩ
b) Obtain the graph of the output voltage and the input voltage.
Explain the differences between the graphs and determine
the circuit gain.
c) Change the R2 resistor with a 5.1k Ω resistor. Obtain...
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