A bandpass series filter has parameter values of R=150Ω , C=2μF and L=3mH .The filter is...
A bandpass series filter has parameter values of R=150Ω , C=2μF and L=3mH .The filter is energized with a voltage source which has an internal resistance equal to 100Ω. What would happen if the filter was loaded with a resistance equal to the filter resistance?
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A bandpass series filter has parameter
values of R=150Ω , C=2μF and L=3mH .The
filter is...
Consider the series RLC bandpass filter shown in (Figure 1). The filter has a quality of...
Consider the series RLC bandpass filter shown in (Figure 1). The filter has a quality of 2 and a center frequency of 8 kHz. The input to the filter is vi (t) = 23 cos wt V. Suppose that C = 5 nF. Figure < 1 of 1 + VLC с L HE + + Vi R} R V. Part E Find the voltage drop across the series combination of the inductor and capacitor when w=10w, Suppose that vlc (t)...
5) Consider the following second-order bandpass filter. As input voltage, apply V(t) 100Ω, C-4.7 μF. and L-10mH. sin(wt).R in Vout Fig 9: Second-order band-pass filter a) Determine the frequenc...
5) Consider the following second-order bandpass filter. As input voltage, apply V(t) 100Ω, C-4.7 μF. and L-10mH. sin(wt).R in Vout Fig 9: Second-order band-pass filter a) Determine the frequency response function H(ju) Ve-ju) / Vm(ju) and sketch the magnitude and phase characteristics versus w by calaulation. Calculate the theoretical cutoff frequency of the filter Using PSpice AC analysis, plot magnitude lHju)l and phase ф characteristics of the filter, between 1 Hz-100 KHz b) c)
5) Consider the following second-order bandpass...
In a series R-L-C circuit, R = 380 Ω , L = 0.330 H and C...
In a series R-L-C circuit, R = 380 Ω , L = 0.330 H and C = 1.10×10−2μF . Part A What is the resonance angular frequency of the circuit? Part B The capacitor can withstand a peak voltage of 550 V . If the voltage source operates at the resonance frequency, what maximum voltage amplitude can it have if the maximum capacitor voltage is not exceeded?
Learning Goal: To analyze and design a passive, second-order bandpass filter using a series RLC circuit....
Learning Goal: To analyze and design a passive, second-order bandpass filter using a series RLC circuit. A bandpass filter is needed for an equalizer, a device that allows one to select the level of amplification of sounds within a specific frequency band while not affecting the sounds outside that band. The filter should block frequencies lower than 1.8 kHz and have a resonant frequency of 5.4 kHz A 3.2 AF capacitor and any needed resistors and inductors are available to...
Problem 4 Use a 5 nF capacitor to design a series RLC bandpass filter. The center...
Problem 4 Use a 5 nF capacitor to design a series RLC bandpass filter. The center frequency the filter is 8 kHz, and the quality factor is 1.5. Part A Specify the value of L. View Available Hint(s) EVO AQH vec ? L = 0.079 ml Submit Previous Answers * Incorrect; Try Again; 8 attempts remaining Part B Specify the value of R. 10 AEDIf vec ? R = k12 Submit Request Answer Problem 4 Use a 5 nF capacitor...
FrqRsp07 80 pF + Given: A series-resonant filter with a resonant frequency of 200 kHz has...
FrqRsp07 80 pF + Given: A series-resonant filter with a resonant frequency of 200 kHz has a quality factor of 15. Vi is the input voltage and V is the output voltage. Required: a. Determine the inductance value, L, in mH for the filter. b. Determine the resistance value, R, in k for the filter c. Determine the filter's gain in decibels, Gdb, at a frequency of 120 kiIz. d. Determine what type of filter this is. Solution: L= C...
In an L-R-C series circuit, R = 260 ?, L = 0.820 H, and C= 0.0230...
In an L-R-C series circuit, R = 260 ?, L = 0.820 H, and C= 0.0230 ?F. The source has voltage amplitude V = 150 V and a frequency equal to the resonance frequency of the circuit (a) What is the power factor? (b) What is the average power delivered by the source? (c) The capacitor is replaced by one with C = 0.0460 ?F and the source frequency is adjusted to the new resonance value. Then what is the...
PartA Design a series RLC bandpass filter using only three components from Appendix H that comes ...
PartA Design a series RLC bandpass filter using only three components from Appendix H that comes closest to the filter with a quality factor of 2 and a center frequency of 8 kHz Choose L 10 mH. Then, what is the value of C? vec AF Submit Request Answen Part B What is the value of R? vec Problem 14.28 Part Design a series RLC bandpass filter using only three components from Appendix H that comes closest to the filter...
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...
4. An electrical filter circuit is built with a series resistor (R), inductor (L) and capacitor...
4. An electrical filter circuit is built with a series resistor (R), inductor (L) and capacitor (C). The ratio of resistor voltage (output) to source voltage (input) is given by H is the magnitude of a complex number, where ZL=JwL ZC = 1 / (j w C) andjsVT (same as 1) w frequency (radians/sec) 2 f,where f is frequency in Hz. For each exercise, assign the values of R, L and C and set the recommended frequency range. Then have...
Consider the series RLC bandpass filter shown in (Figure 1). The filter has a quality of 2 and a center frequency of 8 kHz. The input to the filter is vi (t) = 23 cos wt V. Suppose that C = 5 nF. Figure < 1 of 1 + VLC с L HE + + Vi R} R V. Part E Find the voltage drop across the series combination of the inductor and capacitor when w=10w, Suppose that vlc (t)...
5) Consider the following second-order bandpass filter. As input voltage, apply V(t) 100Ω, C-4.7 μF. and L-10mH. sin(wt).R in Vout Fig 9: Second-order band-pass filter a) Determine the frequency response function H(ju) Ve-ju) / Vm(ju) and sketch the magnitude and phase characteristics versus w by calaulation. Calculate the theoretical cutoff frequency of the filter Using PSpice AC analysis, plot magnitude lHju)l and phase ф characteristics of the filter, between 1 Hz-100 KHz b) c)
5) Consider the following second-order bandpass...
Learning Goal: To analyze and design a passive, second-order bandpass filter using a series RLC circuit. A bandpass filter is needed for an equalizer, a device that allows one to select the level of amplification of sounds within a specific frequency band while not affecting the sounds outside that band. The filter should block frequencies lower than 1.8 kHz and have a resonant frequency of 5.4 kHz A 3.2 AF capacitor and any needed resistors and inductors are available to...
Problem 4 Use a 5 nF capacitor to design a series RLC bandpass filter. The center frequency the filter is 8 kHz, and the quality factor is 1.5. Part A Specify the value of L. View Available Hint(s) EVO AQH vec ? L = 0.079 ml Submit Previous Answers * Incorrect; Try Again; 8 attempts remaining Part B Specify the value of R. 10 AEDIf vec ? R = k12 Submit Request Answer Problem 4 Use a 5 nF capacitor...
FrqRsp07 80 pF + Given: A series-resonant filter with a resonant frequency of 200 kHz has a quality factor of 15. Vi is the input voltage and V is the output voltage. Required: a. Determine the inductance value, L, in mH for the filter. b. Determine the resistance value, R, in k for the filter c. Determine the filter's gain in decibels, Gdb, at a frequency of 120 kiIz. d. Determine what type of filter this is. Solution: L= C...
In an L-R-C series circuit, R = 260 ?, L = 0.820 H, and C= 0.0230 ?F. The source has voltage amplitude V = 150 V and a frequency equal to the resonance frequency of the circuit (a) What is the power factor? (b) What is the average power delivered by the source? (c) The capacitor is replaced by one with C = 0.0460 ?F and the source frequency is adjusted to the new resonance value. Then what is the...
PartA Design a series RLC bandpass filter using only three components from Appendix H that comes closest to the filter with a quality factor of 2 and a center frequency of 8 kHz Choose L 10 mH. Then, what is the value of C? vec AF Submit Request Answen Part B What is the value of R? vec Problem 14.28 Part Design a series RLC bandpass filter using only three components from Appendix H that comes closest to the filter...
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...
4. An electrical filter circuit is built with a series resistor (R), inductor (L) and capacitor (C). The ratio of resistor voltage (output) to source voltage (input) is given by H is the magnitude of a complex number, where ZL=JwL ZC = 1 / (j w C) andjsVT (same as 1) w frequency (radians/sec) 2 f,where f is frequency in Hz. For each exercise, assign the values of R, L and C and set the recommended frequency range. Then have...
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