a. What kind of filter is 
?
b. What are the passband edges and stopband edges?
c. What are the ripples?
Homework Answers
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a) this is low pass filter
b)pass band edge means filter allow certain frequencies which are above the cut off frequency.and stop band edge means it will stop the frequencies when frequency exceeds cut off frequency.
C)ripples means spikes which are present at the filter output at lower and higher frequencies.
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a. What kind of filter is
?
b. What are the passband edges and stopband edges?...
Consider an FIR lowpass filter design with the following specifications: Passband Stopband Passband ripple Stopband attenuation...
Consider an FIR lowpass filter design with the following
specifications:
Passband
Stopband
Passband ripple
Stopband attenuation
Sampling rate
Determine the following:
a. window method
b. length of the FIR filter
c. cutoff frequency for the design equation
We were unable to transcribe this imageWe were unable to transcribe this image= 1200 4000H = 0.1dB We were unable to transcribe this imageWe were unable to transcribe this image
2. Design a digital lowpass filter to meet the following specifications: passband edge = 0.45π stopband...
2. Design a digital lowpass filter to meet the following specifications: passband edge = 0.45π stopband edge = 0.5π Rp = 0.5 dB, As = 60 dB a. Design a Buttterworth filter, you may use the butterord and butter commands to implement. b. Design Chebyshev Type 1 filter ( use the equivalent commands to above ) c. Design an Elliptic fitler ( use the equivalent commands to part a ). d. List the order of each filter and find the...
3. (I0pts) An elliptic analog bandpass filter is to be designed with the following specifications: passband edge: 30 kHz and 50 kHz stopband edge: 25 kHz and 55 kHz peak passband ripple: 0.25dB minim...
3. (I0pts) An elliptic analog bandpass filter is to be designed with the following specifications: passband edge: 30 kHz and 50 kHz stopband edge: 25 kHz and 55 kHz peak passband ripple: 0.25dB minimum stopband attenuation: 40dB What's the bandedge of the corresponding elliptic analog low-pass filter? (Note: There are two possible solutions but you only have to provide one) (5pts) What's the filter order of the corresponding elliptic analog low-pass filter? (You can use Matlab to get your answer....
8. Truncation of ideal impulse response of a filter resulting into oscillation during passband and stopband...
8. Truncation of ideal impulse response of a filter resulting into oscillation during passband and stopband of a filter. This phenomena referred as___________________ a. Gibb's phenomena b. Kaiser window c. Chebychev phenomena d. Wavelet phenomena 9. Advantages of IIR filters over FIR filters are: (Select all that apply) a. IIR filters can be designed with lower order b. IIR filters are highly linear c. IIR filters can be designed from equivalent analog filters d. IIR filters are mostly stable design
3.2 Simple Bandpass Filter Design The L-point averaging filter is a lowpass filter. Its passband width...
3.2 Simple Bandpass Filter Design The L-point averaging filter is a lowpass filter. Its passband width is controlled by L, being inversely proportional to L. In fact, you can use the GUI altidemo to view the frequency response for different averagers and measure the passband widths. It is also possible to create a filter whose passband is centered around some frequency other than zero. One simple way to do this is to define the impulse response of an L-point FIR...
keep getting it wrong please help! Check each statement that is true and leave blank each...
keep getting it wrong please help!
Check each statement that is true and leave blank each statement that is false The impulse response of an ideal lowpass filter is unrealizable because it is non-causal due to its infinite length in negative time Practical filters can be designed by truncating the ideal impulse response to a finite length and applying a window to taper the discontinuities at the impulse response truncation points. An Mth order FIR filter designed with a rectangular...
Please answer in as much detail as possible. Thank you. Question 5 Check each statement that...
Please answer in as much detail as possible. Thank you.
Question 5 Check each statement that is true and leave blank each statement that is false. The impulse response of an ideal lowpass filter is unrealizable because it is non-causal due to its infinite length in negative time. Practical filters can be designed by truncating the ideal impulse response to a finite length and applying a window to taper the discontinuities at the impulse response truncation points An Mth order...
The MATLAB program below designs a lowpass filter for a passband edge frequency of 250Hz and...
The MATLAB program below designs a lowpass filter for a passband edge frequency of 250Hz and a stopband edge of 350Hz. The sampling frequency is 2kHz. A Hamming window is used. (a) The program is on Webcampus. Run it and copy and paste the wvtool plots into Word. % FIR Filter Design (using wvtool) % Lowpass Design clear fpass 250; fstop 350; fs 2000; wp 2*pi* fpass/ fs; ws 2* pi fstop / fs; M=ceil(6.6 * pi / (ws-wp)) +...
1. Find the length of the lowpass FIR filter corresponding to the following specifications: wp- 0...
1. Find the length of the lowpass FIR filter corresponding to the following specifications: wp- 0.3m ωs-0.4m, δp-0.01, and δ,-0.005. Use Kaiser's formula 4. Consider the design of a windowed FIR lowpass filter corresponding to the specifications given in problem #1. Determine its length if Hann, Hamming, and Blackman windows are used. Hint: refer to Equation 10.36 and Table 10.2 of the textbook. 5. With reference to the specifications in problem #1, consider the design of an FIR lowpass filter...
A filter specification is given as w, -0.4, a, 0.5,8 0.01, 6 0.00001, What kind of...
A filter specification is given as w, -0.4, a, 0.5,8 0.01, 6 0.00001, What kind of filter is this? а. b. What is the transition band of the filter Draw the absolute specification C. d. What is the specification in relative? Draw the relative specification. е. f. If the filter is applied on a signal sampled at 100 kHz, what are the frequency edges in Hz?
A filter specification is given as w, -0.4, a, 0.5,8 0.01, 6 0.00001, What...
Consider an FIR lowpass filter design with the following
specifications:
Passband
Stopband
Passband ripple
Stopband attenuation
Sampling rate
Determine the following:
a. window method
b. length of the FIR filter
c. cutoff frequency for the design equation
We were unable to transcribe this imageWe were unable to transcribe this image= 1200 4000H = 0.1dB We were unable to transcribe this imageWe were unable to transcribe this image
3. (I0pts) An elliptic analog bandpass filter is to be designed with the following specifications: passband edge: 30 kHz and 50 kHz stopband edge: 25 kHz and 55 kHz peak passband ripple: 0.25dB minimum stopband attenuation: 40dB What's the bandedge of the corresponding elliptic analog low-pass filter? (Note: There are two possible solutions but you only have to provide one) (5pts) What's the filter order of the corresponding elliptic analog low-pass filter? (You can use Matlab to get your answer....
3.2 Simple Bandpass Filter Design The L-point averaging filter is a lowpass filter. Its passband width is controlled by L, being inversely proportional to L. In fact, you can use the GUI altidemo to view the frequency response for different averagers and measure the passband widths. It is also possible to create a filter whose passband is centered around some frequency other than zero. One simple way to do this is to define the impulse response of an L-point FIR...
keep getting it wrong please help!
Check each statement that is true and leave blank each statement that is false The impulse response of an ideal lowpass filter is unrealizable because it is non-causal due to its infinite length in negative time Practical filters can be designed by truncating the ideal impulse response to a finite length and applying a window to taper the discontinuities at the impulse response truncation points. An Mth order FIR filter designed with a rectangular...
Please answer in as much detail as possible. Thank you.
Question 5 Check each statement that is true and leave blank each statement that is false. The impulse response of an ideal lowpass filter is unrealizable because it is non-causal due to its infinite length in negative time. Practical filters can be designed by truncating the ideal impulse response to a finite length and applying a window to taper the discontinuities at the impulse response truncation points An Mth order...
The MATLAB program below designs a lowpass filter for a passband edge frequency of 250Hz and a stopband edge of 350Hz. The sampling frequency is 2kHz. A Hamming window is used. (a) The program is on Webcampus. Run it and copy and paste the wvtool plots into Word. % FIR Filter Design (using wvtool) % Lowpass Design clear fpass 250; fstop 350; fs 2000; wp 2*pi* fpass/ fs; ws 2* pi fstop / fs; M=ceil(6.6 * pi / (ws-wp)) +...
1. Find the length of the lowpass FIR filter corresponding to the following specifications: wp- 0.3m ωs-0.4m, δp-0.01, and δ,-0.005. Use Kaiser's formula 4. Consider the design of a windowed FIR lowpass filter corresponding to the specifications given in problem #1. Determine its length if Hann, Hamming, and Blackman windows are used. Hint: refer to Equation 10.36 and Table 10.2 of the textbook. 5. With reference to the specifications in problem #1, consider the design of an FIR lowpass filter...
A filter specification is given as w, -0.4, a, 0.5,8 0.01, 6 0.00001, What kind of filter is this? а. b. What is the transition band of the filter Draw the absolute specification C. d. What is the specification in relative? Draw the relative specification. е. f. If the filter is applied on a signal sampled at 100 kHz, what are the frequency edges in Hz?
A filter specification is given as w, -0.4, a, 0.5,8 0.01, 6 0.00001, What...
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