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1. the two etectrodes and this signal consisted of 2 mv of ECG supenmposed with 2...
The maximal single-peak ECG signal amplitude can be approximately 10 mV and the frequency range of...
The maximal single-peak ECG signal amplitude can be approximately 10 mV and the frequency range of ECG signal is usually between 0.5-200 Hz. Design a one-op-amp band-pass filter circuit that will amplify the ECG to have the maximal gain possible without exceeding the typical guaranteed linear output range (±10V) and will pass the range of frequencies indicated (Assume Ri = 10 kΩ).
I need help with number 2 . Please answer in MATLAB thank you! 1. In the lab we analyzed filtering 60 Hz power-line noi...
I need help with number 2 . Please answer in MATLAB thank
you!
1. In the lab we analyzed filtering 60 Hz power-line noise from ECG signal using a digital (signal processing) filter. Now let's try to an analog (circuit) filter approach to remove the 60 Hz line-noise. Following is an active twin-T notch filter with transfer function: (1+m)((2joRC? +1 Z(a) 2R 2R Here m is the ratio of the two feedback 2C R resistance which determines the gain and...
Mandy the Medical Student is building her own ECG (ElectroCardioGram). She has set up the leads...
Mandy the Medical Student is building her own ECG (ElectroCardioGram). She has set up the leads and is getting a signal with magnitude up to 5 mV. She would like to filter the signal to only capture signal in the frequency range from 1 Hz to 40 Hz. She would also like to amplify the signal to have magnitude up to 1 V, so that it can be captured by the sound card on her computer. Produce a design for...
Question 13 1 pts If a common-mode signal of 250 mV is applied to a balanced...
Question 13 1 pts If a common-mode signal of 250 mV is applied to a balanced circuit with a CMRR of 65 dB, how much differential-mode noise will be produced across the balanced load? 0 2.0 mV 0.81 mV 0.14 mv 0.10 microV Question 14 1 pts What is the most effective conductor shape to produce a low impedance over the widest frequency range? O round wire wire with square cross section wide flat strap Question 15 1 pts Why...
(MATLAB question) "ecg_signal.mat" converted to a .csv file yields the following data; This is only part of th...
(MATLAB question) "ecg_signal.mat" converted to a .csv file yields the following data; This is only part of the whole .mat file. Please show how to analyze the whole signal from this snapshot. 1. In the lab we analyzed filtering 60 Hz power-line noise from ECG signal using a digital (signal processing) filter. Now let's try to an analog (circuit) filter approach to remove the 60 Hz line-noise. Following is an active twin-T notch filter with transfer function: 2R 2R Here...
A signal source with an open-circuit voltage of Vs = 2 mV rms and an internal...
A signal source with an open-circuit voltage of Vs = 2 mV rms and an internal resistance of 50 kΩ is connected to the input terminals of an amplifier having an open-circuit voltage gain of 100, an input resistance of 135 kΩ , and an output resistance of 4 Ω. A 4 Ω load is connected to the output terminals. Find Voltage gain Avs = V0/Vs Find voltage gain Av = V0/Vi Find current gain Ai Find power gain G...
A. The amplifier shown below is constructed with auA741 opamp with R-10kg 2. It is to have (GBP) ...
A. The amplifier shown below is constructed with auA741 opamp with R-10kg 2. It is to have (GBP) of 1 MHz a closed-loop gain of 100. Assume the op-amp has a gain-bandwidth product i. Specify the value of Ro ii. What will be the gain (in both dB and actual magnitude) at 100.kHz? ii. How many cycles will the output signal trail the input signal at 100kHz Co Noh-Inverting R Op-Amp vi Curde 1. B. A transducer measures a sinusoidal...
You measure the voltage difference between two ECG electrodes placed on your right arm and left...
You measure the voltage difference between two ECG electrodes placed on your right arm and left leg (lead II). You use an instrumentation amplifier with a differential gain of 75 and a CMRR of 80 dB. The common-mode voltage, present at both of your amplifier inputs, is 1.2 V. Your ECG waveform varies between -2.5 mV and +2.5 mV. What are the bounds of the output voltage of the instrumentation amp (i.e. the min and max voltage)? Give your answer...
using Matlab: 1) Design an FIR notch filter using zero placement to remove power-line noise at...
using Matlab: 1) Design an FIR notch filter using zero placement to remove power-line noise at 60 Hz (use file ecg_60hz_200, fs = 200 Hz). 2) Design a LP Butterworth filter with cut-off frequency of 40 Hz to remove high-frequency noise (use file ecg_hfn.dat, fs = 1000 Hz). 3) Design an Elliptic HP filter with passband ripple of 0.01 dB and stopband attenuation of 50 dB and cut-off frequency of 0.5 Hz to remove low-frequency noise (use file ecg_lfn.dat, fs...
The input r(t) to a DSBSC receiver is a DSB signal s(t) = A m(t)cos (21fet)...
The input r(t) to a DSBSC receiver is a DSB signal s(t) = A m(t)cos (21fet) corrupted by additive white Gaussian noise with two-sided power spectral density N,/2, where No = 10-12 W/Hz, m(t) is a message signal bandlimited to 10 kHz. Average power of m(t) is Pm = 4 W and Ac = 2 mV. The block diagram of the receiver is shown below. Note that the receiver has filters which have slightly larger bandwidths than a typical DSB...
I need help with number 2 . Please answer in MATLAB thank
you!
1. In the lab we analyzed filtering 60 Hz power-line noise from ECG signal using a digital (signal processing) filter. Now let's try to an analog (circuit) filter approach to remove the 60 Hz line-noise. Following is an active twin-T notch filter with transfer function: (1+m)((2joRC? +1 Z(a) 2R 2R Here m is the ratio of the two feedback 2C R resistance which determines the gain and...
Mandy the Medical Student is building her own ECG (ElectroCardioGram). She has set up the leads and is getting a signal with magnitude up to 5 mV. She would like to filter the signal to only capture signal in the frequency range from 1 Hz to 40 Hz. She would also like to amplify the signal to have magnitude up to 1 V, so that it can be captured by the sound card on her computer. Produce a design for...
Question 13 1 pts If a common-mode signal of 250 mV is applied to a balanced circuit with a CMRR of 65 dB, how much differential-mode noise will be produced across the balanced load? 0 2.0 mV 0.81 mV 0.14 mv 0.10 microV Question 14 1 pts What is the most effective conductor shape to produce a low impedance over the widest frequency range? O round wire wire with square cross section wide flat strap Question 15 1 pts Why...
A. The amplifier shown below is constructed with auA741 opamp with R-10kg 2. It is to have (GBP) of 1 MHz a closed-loop gain of 100. Assume the op-amp has a gain-bandwidth product i. Specify the value of Ro ii. What will be the gain (in both dB and actual magnitude) at 100.kHz? ii. How many cycles will the output signal trail the input signal at 100kHz Co Noh-Inverting R Op-Amp vi Curde 1. B. A transducer measures a sinusoidal...
The input r(t) to a DSBSC receiver is a DSB signal s(t) = A m(t)cos (21fet) corrupted by additive white Gaussian noise with two-sided power spectral density N,/2, where No = 10-12 W/Hz, m(t) is a message signal bandlimited to 10 kHz. Average power of m(t) is Pm = 4 W and Ac = 2 mV. The block diagram of the receiver is shown below. Note that the receiver has filters which have slightly larger bandwidths than a typical DSB...
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