Find the pole Q, pole frequency and maximum gain for the Rauch,Deliyannis and Tow-Thomas biquads...
Find the pole Q, pole frequency and maximum gain for the Rauch, Deliyannis and Tow-Thomas biquads from their element values.
Homework Answers
Answer : -
Given,
Pole Q : -
--> Here the pole ' Q ' is to take something it is a word that express the action.
--> Then the pole ' Q ' different types and , each type is determined by the kinds of words.
--> Pole frequency maximum gain for the Rouch and Dediyannis and the thomas biquads : -
--> The frequency response has a at a frequency (w) , the transfer function has a zero on unit circle angle.
--> The relationship between the poles and zero are the magnitude response discrete time LT, system.
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Find the pole Q, pole frequency and maximum gain for the Rauch,Deliyannis and Tow-Thomas biquads...
using ltspice, design and simulate a second order lowpass Tow Thomas Biquad filter. given, 3dB frequency...
using ltspice, design and simulate a second order lowpass Tow Thomas Biquad filter. given, 3dB frequency 105 khz cut-off frequency the circuit should match the cut-off frequency pleas provide the calculation for the resisters and capacitors choose your own values for the resistors and capacitors but it should match with the cutoff frequency
A DC amplifier having a single-pole response with pole frequency 39 Hz and unity-gain frequency of...
A DC amplifier having a single-pole response with pole frequency 39 Hz and unity-gain frequency of 3.25 MHz is operated in a loop whose frequency-independent feedback factor is 0.04. 1) Low Frequency Gain? 2) 3-dB Frequency? 3) Unity-gain frequency of closed-loop amplifier?
5) Design a one-pole, one-zero passive filter to have a low-frequency gain of -32 dB, a high-freq...
please show all steps and matlab plot ,
5) Design a one-pole, one-zero passive filter to have a low-frequency gain of -32 dB, a high-frequency gain of 0 dB, and a cutoff frequency of 2,000 Hz. Specify the circuit and all component values. Use Matlab to plot the magnitude and phase frequency response for your filter.
5) Design a one-pole, one-zero passive filter to have a low-frequency gain of -32 dB, a high-frequency gain of 0 dB, and a cutoff...
(b) If the op-amp is realized by the circuit shown in Fig. 4( find the low-frequency gain and estimate the dominant pol...
(b) If the op-amp is realized by the circuit shown in Fig. 4( find the low-frequency gain and estimate the dominant pole pi as a function of the appropriate small-signal parameters and capacitor values. The unity-gain buffer has very high input resistance and very low output resistance. Assume that the voltage gain of the 2nd stage is very large and make any appro priate approximations. Then find the expression for the unity-gain frequency assuming that it is well within the...
1. Find the operating point of the circuit below assuming the op amp is ideal 2. Estimate the midband voltage gain Avs-...
1. Find the operating point of the circuit below assuming the op amp is ideal 2. Estimate the midband voltage gain Avs-vo v, 3. Choose values for C1 and C2 so that the pole frequency associated with Ci is 1 Hz and the pole frequency associated with C is 400 Hz. 4. At what frequency fz does a zero occur? 6. Why does the amplifier's gain drop at high frequencies? C2 R1 R2 99K C2] 2K param C2 0.1uF U1...
Design a 5-pole Sallen-Key low-pass filter. Set the cutoff frequency to 1 KHz. Set the Q...
Design a 5-pole Sallen-Key low-pass filter. Set the cutoff frequency to 1 KHz. Set the Q for 5. What is the damping?
Q.7. Assume a radar receiver with gain of 100, has an IF bandwidth of 4GHz, and...
Q.7. Assume a radar receiver with gain of 100, has an IF bandwidth of 4GHz, and a noise figure [10M] of 6.3, transmitting 31.62KW of power at a frequency of 8 GHz, for a target cross section of 8m². (Assume TO = 290 degrees kelvin., and k= 1.38 x10-23) A. Convert radar equation into decibel e radar equation, applying decimal log on both sides and find the new equation for range, [4M] B. Convert all the values into decibel and...
For good rating provide correct and full solution 6.19 (a) Assuming C4 0, show that the voltage gain of the emitter follower of Fig. 6.30a has the pole-zero frequency pair (R, + R2)r,C pa za Rs...
For good rating provide correct and full solution
6.19 (a) Assuming C4 0, show that the voltage gain of the emitter follower of Fig. 6.30a has the pole-zero frequency pair (R, + R2)r,C pa za Rs.g + T, and R2 - Rllr. where R, sig (b) Show that the impedance Z, has the pole-zero frequency pair PI (c) Show that the impedance Z, has the zero-pole frequency pair co(R,//r,)C7 (B+R,+ r How do the above expressions simplify if P, is...
Question 1 Design a lowpass filter, with cutoff frequency wc. The maximum gain of the fitler should be A dB, and the filter gain at angular frequency ws should be no more than As dB. Use as few circui...
Question 1 Design a lowpass filter, with cutoff frequency wc. The maximum gain of the fitler should be A dB, and the filter gain at angular frequency ws should be no more than As dB. Use as few circuit elements as possible. wc 1552(rad/s) A 22,48 (dB) ws 3776 (rad/s) As -17,98 (dB)
please show all steps and matlab plot ,
5) Design a one-pole, one-zero passive filter to have a low-frequency gain of -32 dB, a high-frequency gain of 0 dB, and a cutoff frequency of 2,000 Hz. Specify the circuit and all component values. Use Matlab to plot the magnitude and phase frequency response for your filter.
5) Design a one-pole, one-zero passive filter to have a low-frequency gain of -32 dB, a high-frequency gain of 0 dB, and a cutoff...
(b) If the op-amp is realized by the circuit shown in Fig. 4( find the low-frequency gain and estimate the dominant pole pi as a function of the appropriate small-signal parameters and capacitor values. The unity-gain buffer has very high input resistance and very low output resistance. Assume that the voltage gain of the 2nd stage is very large and make any appro priate approximations. Then find the expression for the unity-gain frequency assuming that it is well within the...
1. Find the operating point of the circuit below assuming the op amp is ideal 2. Estimate the midband voltage gain Avs-vo v, 3. Choose values for C1 and C2 so that the pole frequency associated with Ci is 1 Hz and the pole frequency associated with C is 400 Hz. 4. At what frequency fz does a zero occur? 6. Why does the amplifier's gain drop at high frequencies? C2 R1 R2 99K C2] 2K param C2 0.1uF U1...
Q.7. Assume a radar receiver with gain of 100, has an IF bandwidth of 4GHz, and a noise figure [10M] of 6.3, transmitting 31.62KW of power at a frequency of 8 GHz, for a target cross section of 8m². (Assume TO = 290 degrees kelvin., and k= 1.38 x10-23) A. Convert radar equation into decibel e radar equation, applying decimal log on both sides and find the new equation for range, [4M] B. Convert all the values into decibel and...
For good rating provide correct and full solution
6.19 (a) Assuming C4 0, show that the voltage gain of the emitter follower of Fig. 6.30a has the pole-zero frequency pair (R, + R2)r,C pa za Rs.g + T, and R2 - Rllr. where R, sig (b) Show that the impedance Z, has the pole-zero frequency pair PI (c) Show that the impedance Z, has the zero-pole frequency pair co(R,//r,)C7 (B+R,+ r How do the above expressions simplify if P, is...
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