Introductory Circuit Analysis (13th Edition)
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ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Transcribed Image Text:15.8 a) Use the circuit in Fig. 15.4 to design a high-pass
filter with a cutoff frequency of 2.5 kHz and a
passband gain of 10 dB. Use a 50 nF capacitor in
the design.
DESIGN
"ROBLEM
b) Draw the circuit diagram of the filter and label
all the components.
Transcribed Image Text:R2
R
SC
Vo
Figure 15.4 A A first-order high-pass filter.
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- 15.10 Design an op amp-based high-pass filter with a cut- off frequency of 10 kHz and a passband gain of 4 using a 75 nF capacitor. a) Draw your circuit, labeling the component val- ues and the output voltage. b) If the value of the feedback resistor in the filter is changed but the value of the resistor in the forward path is unchanged, what characteristic of the filter is changed?arrow_forwardC R₁ M Rf www + Vo For the op-amp filter circuit shown above, assume C₁ = 10nF, R₁ = Find the corner frequency, wc, of the circuit. 1k, and Rf = 5kQ. Wc secarrow_forwardDESIGNPROBLEM_PSPICEMULTISIM Use a 500 nF capacitor to design a bandreject filter, as shown. The filter has a center frequency of 4 kHz and a quality factor of 5. 1. a) Specify the numerical values of R and L. 2. b) Calculate the upper and lower corner, or cutoff, frequencies in kilohertz. 3. c) Calculate the filter bandwidth in kilohertz. Vi 500 nF HE L R Voarrow_forward
- Parameter Value Gain, AV 30 dB Resistor, R1 1.5 kΩ Capacitor, C 3.35 uF 1. Figure depicts a first order low pass filter and Table tabulates parameters ultised to construct the filter. In the design, R1||R2. Calculate the bandwith of the filter. 2. Describe the condition of unity gain in an amplifier and determine voltage output, VO,if voltage input, V1, is 2V for a non-inverting amplifier 3. Construct an equation relating the input (Vin) and output (Vout) of an inverting amplifier.The conditioning circuit has input range between 10 mV to 110 mV which resultingoutput between 0V to 5V.arrow_forwardPlease do part Darrow_forwardAsap pleasearrow_forward
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