a- Design an active Band Pass Filter with Bandwidth of (5 to 150 )HZ and Pass Band Gain not less than 40 dB using (2 Op-Amps )and any required components.

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a- Design an active Band Pass Filter with Bandwidth
of (5 to 150 )HZ and Pass Band Gain not less than
40 dB using
(2 Op-Amps )and any required components.
b- Repeat the previous part using only one Op-
Amp and any required components.(Hint see page
219 in the text book).
Figure 9.12
A.C. amplifier
Solve this question using hints from the attached 219
page in the text book
FORT
Done
R₂
R.C.s+1
9.2 AMPLIFIERS 219
[9.31]
Typically ,- 15 V.e-10°. R-1202 and G-2; therefore to give Four-5 V,
R, must be 1 MO
A.C. amplifier
Figure 9.12 shows an ac. signal source connected to an inverting amplifier with
input resistance Re capacitance Ce feedback resistance R, and capacitance C
The circuit can be analysed using ogn [9.27] with R., and R, replaced by complex
impedances Z, and Z, to give:
V R. Cas
RR,C,+1R₂C+1)
Here Zo is the series combination of Ra and C Le
Zou = Rox + (1/Cp)
where is the Laplace operator.
Z, is the parallel combination of R, and C, ie:
Z₁=-
From these equations, the transfer function relating output voltage Foto input voltage
V for the ac. amplifier, is
[9.32]
Figure 9.13 shows the amplitude frequency response characteristics of the amplifier.
It has a mid-band gain of R, R., and a bandwidth between f, and f, and can be used
in a.c. carrier systems (Section 9.3).
Transcribed Image Text:15:36 Expert Q&A a- Design an active Band Pass Filter with Bandwidth of (5 to 150 )HZ and Pass Band Gain not less than 40 dB using (2 Op-Amps )and any required components. b- Repeat the previous part using only one Op- Amp and any required components.(Hint see page 219 in the text book). Figure 9.12 A.C. amplifier Solve this question using hints from the attached 219 page in the text book FORT Done R₂ R.C.s+1 9.2 AMPLIFIERS 219 [9.31] Typically ,- 15 V.e-10°. R-1202 and G-2; therefore to give Four-5 V, R, must be 1 MO A.C. amplifier Figure 9.12 shows an ac. signal source connected to an inverting amplifier with input resistance Re capacitance Ce feedback resistance R, and capacitance C The circuit can be analysed using ogn [9.27] with R., and R, replaced by complex impedances Z, and Z, to give: V R. Cas RR,C,+1R₂C+1) Here Zo is the series combination of Ra and C Le Zou = Rox + (1/Cp) where is the Laplace operator. Z, is the parallel combination of R, and C, ie: Z₁=- From these equations, the transfer function relating output voltage Foto input voltage V for the ac. amplifier, is [9.32] Figure 9.13 shows the amplitude frequency response characteristics of the amplifier. It has a mid-band gain of R, R., and a bandwidth between f, and f, and can be used in a.c. carrier systems (Section 9.3).
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