A. Design one circuit: Including power supply values and connections. 1-Design a non-inverting am...
A. Design one circuit: Including power supply values and connections.
1-Design a non-inverting amplifier with a gain of +11 V/V (+/- 10%) with an input
of 0.5 V sin(2pi 200t).
2-Design an inverting amplifier with a gain of -22 V/V (+/- 10%) with an input of
0.12 V sin(2pi500t)
3-Design a 555 time astable with a 1 Hz output to an LED load
4-Design a single stage low-pass filter with a cutoff frequency of 300 Hz.
Homework Answers
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A. Design one circuit: Including power supply values and connections. 1-Design a non-inverting am...
A piezoelectric pressure transducer is equipped with a charge amplifier that generates analog voltage signals on the output. For further processing of these signals, an engineer is tasked to design an...
A piezoelectric pressure transducer is equipped with a charge amplifier that generates analog voltage signals on the output. For further processing of these signals, an engineer is tasked to design an active, inverting, low-pass, 1st-order RC filter. The filter should have a cutoff frequency 6 kHz and a static sensitivity 5.5. The engineer can use only the following components: type-741 operational amplifiers, resistors of any values, and 0.5-microfarad capacitors. (a) Draw the circuit diagram of the active, inverting, low-pass, 1st-order...
For the low-pass filter circuit shown in Fig 2 3k Ω 200mil in out Fig 2 3.a. Use a 2.2nF capacitor to design a high-pas...
For the low-pass filter circuit shown in Fig 2 3k Ω 200mil in out Fig 2 3.a. Use a 2.2nF capacitor to design a high-pass filter to have a cutoff frequency of Skn Draw a schematic of your design. Show all component values and voltages c. Sketch the frequency response of the voltage gain and phase shift Magnitude dB Frequency Hz Phase Frequency Hz
For the low-pass filter circuit shown in Fig 2 3k Ω 200mil in out Fig 2...
Design a low pass filter with a cutoff frequency of 1 kHz +/- 100 Hz and...
Design a low pass filter with a cutoff frequency of 1 kHz +/- 100 Hz and a gain of 16.0 dB +/- 1.0 dB in the passband. The R2 and C components of the filter control the cutoff frequency, and are inversely proportional to the cutoff frequency. So decreasing the resistance or capacitance will increase the cutoff frequency. The R1 and Rf components determine the gain of the amplifier. Increasing the value of Rf will increase the gain. Increasing the...
please write clearly with steps. thank you Q3. (a) Derive the differential gain for the following equivalent circuit of a differential amplifier. (1o pts) iel el ie RE Ri iel Figure 6. Differentia...
please write clearly with steps. thank you
Q3. (a) Derive the differential gain for the following equivalent circuit of a differential amplifier. (1o pts) iel el ie RE Ri iel Figure 6. Differential mode small signal equivalent circuit of basic differential amplifier. (b) Given that Ac-0.5 and Ad-9o for a differential amplifier. Find CMRR. (5 pts) (e) Design a first order low pass filter with cut-off frequency of 20 kHz. Assume that pass-band gain is 16dB. You can use Figure...
A) Design a low-pass filter using the given circuitry with a cut-off value of 1 kHz and plot the ...
a) Design a low-pass filter using the given circuitry with a cut-off value of 1 kHz and plot the frequency response curve on the given axes 1.0 0.7 0.5 in out 0.0 101 102 103 104 10s Hz b) Design a band-pass filter using the given circuitry with a bandwidth of 500 Hz and a lower cut-off value of 100 Hz, and draw the frequency response curve. Keep all resistors at the same value (i.e. Ri-R-R3-R4). 1.0 0.7 0.5 0.0...
Learning Goal: To analyze and design a passive, first-order low-pass filter using a series RL circuit....
Learning Goal: To analyze and design a passive, first-order low-pass filter using a series RL circuit. The analysis and design will be repeated for a series RC circuit. An electrocardiogram needs to detect periodic signals of approximately 1 Hz (since the resting heart rate of a healthy adult is between 55 and 70 beats per minute). The instrument operates in an electrical environment that is very noisy with a frequency of 60 Hz. It is desirable to have a low-pass...
2. Design a non-inverting op-amp circuit with two resistors under the following conditions: a. The gain of the ampl...
2. Design a non-inverting op-amp circuit with two resistors under the following conditions: a. The gain of the amplifier must be +10 b. The input range is ± 2V c. The total power consumed by the resistors must be less than 100 mW Show all the calculations required to design the amplifier circuit with the shown specifications.in details Use MULTISIM to create the op-amp circuit and print a fully labelled diagram of the circuits with the voltmeters displays showing both...
(a) Design an inverting amplifier by choosing suitable resistor values for R1 and R2 to produce...
(a) Design an inverting amplifier by choosing suitable resistor
values for R1 and R2 to produce a gain of 5 when both switches
Sw1 and Sw2 are open.
(b) Design the bias input circuit by choosing suitable resistors
R3 and R4 such that the voltage vb will be 0.5V if the
positive power supply of the op-amp is connected to a 5V battery.
Again both switches are open.
(c) Given Sw1 is open, the amplifier is turned on for
enough...
Learning Goal: To analyze and design a passive, first-order low- pass filter using a series RL...
Learning Goal: To analyze and design a passive, first-order low- pass filter using a series RL circuit. The analysis and design will be repeated for a series RC circuit. An electrocardiogram needs to detect periodic signals of approximately 1 Hz (since the resting heart rate of a healthy adult is between 55 and 70 beats per minute). The instrument operates in an electrical environment that is very noisy with a frequency of 60 Hz. It is desirable to have a...
Part A: Design the power supply component of your amplifier and filter. You will need to...
Part A:
Design the power supply component of your amplifier and filter.
You will need to produce a dual-sided power supply with +10V, 0V
and –10V using the 12 VAC plugpack as an AC source. Assume that
your amplifier and filter will draw around 10 mA of current on both
the positive and negative voltage supplies. Your design should
include components to minimise voltage ripple. Show calculations
for the selection of components where practical. Show a circuit
diagram for the...
For the low-pass filter circuit shown in Fig 2 3k Ω 200mil in out Fig 2 3.a. Use a 2.2nF capacitor to design a high-pass filter to have a cutoff frequency of Skn Draw a schematic of your design. Show all component values and voltages c. Sketch the frequency response of the voltage gain and phase shift Magnitude dB Frequency Hz Phase Frequency Hz
For the low-pass filter circuit shown in Fig 2 3k Ω 200mil in out Fig 2...
please write clearly with steps. thank you
Q3. (a) Derive the differential gain for the following equivalent circuit of a differential amplifier. (1o pts) iel el ie RE Ri iel Figure 6. Differential mode small signal equivalent circuit of basic differential amplifier. (b) Given that Ac-0.5 and Ad-9o for a differential amplifier. Find CMRR. (5 pts) (e) Design a first order low pass filter with cut-off frequency of 20 kHz. Assume that pass-band gain is 16dB. You can use Figure...
a) Design a low-pass filter using the given circuitry with a cut-off value of 1 kHz and plot the frequency response curve on the given axes 1.0 0.7 0.5 in out 0.0 101 102 103 104 10s Hz b) Design a band-pass filter using the given circuitry with a bandwidth of 500 Hz and a lower cut-off value of 100 Hz, and draw the frequency response curve. Keep all resistors at the same value (i.e. Ri-R-R3-R4). 1.0 0.7 0.5 0.0...
Learning Goal: To analyze and design a passive, first-order low-pass filter using a series RL circuit. The analysis and design will be repeated for a series RC circuit. An electrocardiogram needs to detect periodic signals of approximately 1 Hz (since the resting heart rate of a healthy adult is between 55 and 70 beats per minute). The instrument operates in an electrical environment that is very noisy with a frequency of 60 Hz. It is desirable to have a low-pass...
2. Design a non-inverting op-amp circuit with two resistors under the following conditions: a. The gain of the amplifier must be +10 b. The input range is ± 2V c. The total power consumed by the resistors must be less than 100 mW Show all the calculations required to design the amplifier circuit with the shown specifications.in details Use MULTISIM to create the op-amp circuit and print a fully labelled diagram of the circuits with the voltmeters displays showing both...
(a) Design an inverting amplifier by choosing suitable resistor
values for R1 and R2 to produce a gain of 5 when both switches
Sw1 and Sw2 are open.
(b) Design the bias input circuit by choosing suitable resistors
R3 and R4 such that the voltage vb will be 0.5V if the
positive power supply of the op-amp is connected to a 5V battery.
Again both switches are open.
(c) Given Sw1 is open, the amplifier is turned on for
enough...
Learning Goal: To analyze and design a passive, first-order low- pass filter using a series RL circuit. The analysis and design will be repeated for a series RC circuit. An electrocardiogram needs to detect periodic signals of approximately 1 Hz (since the resting heart rate of a healthy adult is between 55 and 70 beats per minute). The instrument operates in an electrical environment that is very noisy with a frequency of 60 Hz. It is desirable to have a...
Part A:
Design the power supply component of your amplifier and filter.
You will need to produce a dual-sided power supply with +10V, 0V
and –10V using the 12 VAC plugpack as an AC source. Assume that
your amplifier and filter will draw around 10 mA of current on both
the positive and negative voltage supplies. Your design should
include components to minimise voltage ripple. Show calculations
for the selection of components where practical. Show a circuit
diagram for the...
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