Deck 15: Active Filters

A)VCVS filters.
B)biquadratic filters.
C)state- variable filters.
D)multiple feedback filters.

A)644 Hz
B)2.46 kHz
C)1.23 kHz
D)Not enough information is given.

A)10.6 kHz.
B)1.69 kHz.
C)3.39 Hz.
D)None of the above.

A)higher than
B)lower than
C)equal to
D)None of the above.

A)a)
B)b)
C)c)
D)d)

A)a notch filter.
B)a band- reject filter.
C)a band- elimination filter.
D)All of the above.

A)the ratio of the center frequency to the bandwidth.
B)the quiescent current specification of the op- amp input stage.
C)the difference between the two op- amp power supply voltages.
D)not related to the damping factor.

A)uses a minimum of two op- amps.
B)is used for a narrow band high Q)filter.
C)is also known as a Sallen- Key filter.
D)is used for a wide band low Q)filter.

A)high- pass filter, 20 dB/decade
B)band- pass filter, 80 dB/decade
C)low- pass filter, 60 dB/decade
D)high- pass filter, 80 dB/decade

A)Active filters have a low output impedance.
B)Active filters provide filtering with gain.
C)Active filters require no power to operate.
D)Active filters have minimal loading due to a high input impedance.

A)has a low- pass, high- pass and band- pass output.
B)uses fewer than three op- amps.
C)is difficult to tune.
D)has high component sensitivity.

A)Inverse Chebyshev.
B)Butterworth.
C)Bessel.
D)Chebyshev.

A)Chebyshev.
B)Bessel.
C)Elliptic.
D)Butterworth.

A)Colpitts.
B)Butterworth.
C)Bessel.
D)Chebyshev.

A)- 20 dB/decade.
B)- 6 dB/octave.
C)- 40 dB/decade.
D)A and B above.

A)low- pass filter.
B)high- pass filter.
C)band- pass filter.
D)band- stop filter.

A)a resistor and an inductor.
B)a resistor and a capacitor.
C)a capacitor and an inductor.
D)two resistors and one inductor.

A)Chebyshev.
B)Butterworth.
C)Elliptic.
D)Bessel.

A)a)
B)b)
C)c)
D)d)

A)determined by the damping factor.
B)determined by the feedback capacitor value.
C)determined by the unity gain bandwidth of the op- amp.
D)0 Hz.

A)180 dB per decade.
B)360 dB per decade.
C)20 dB per decade.
D)40 dB per decade.

A)wide band- pass, narrow band- pass
B)low order, high order
C)low pass, high pass
D)band- pass, band- stop

A)all- pass
B)notch
C)all- stop
D)low- cut

A)does not change.
B)decreases.
C)increases.
D)doubles for every 1 kHz increase in frequency.

A)1 kHz and 10 MHz.
B)fc1 and fc2.
C)1 kHz and 10 kHz.
D)a band- start and band- stop.

A)132.9 k▲
B)2.34 k▲
C)18 k▲
D)680 ▲

A)a).
B)b).
C)c).
D)d).

A)all- pass filter.
B)band- stop circuit.
C)band- pass circuit.
D)time- delay circuit.

A)a 2- pole filter followed by another 2- pole.
B)a 2- pole filter followed by a 1- pole.
C)two single- pole filters in series.
D)None of the above.

A)roll- off rate
B)Q- rating
C)bandwidth
D)phase shift

A)1.23 kHz.
B)2.46 kHz.
C)644 Hz.
D)Cannot determine.

A)bandwidth divided by Q.
B)3- dB frequency.
C)bandwidth.
D)geometric average of the cutoff frequencies.

A)the number of poles.
B)the negative feedback of the circuit.
C)the Q of the circuit.
D)the positive feedback of the circuit.