II. Refer to Figure 2. 1. State if the circuit below in Figure 2 is a high pass or low pass filter, and calculate a suitable capacitor value such that the circuit has a cut-off frequency of 2 kHz. 2. i) The circuit shown in Figure 2 is connected to an ac voltage source of 12 V and frequency 2 kHz. Calculate the magnitude and phase, with reference to the 12 V source, of the current in the circuit, and the magnitude and phase of the voltage across each component. ii) Sketch a phasor diagram indicating the source voltage, voltage across each component, and the circuit current.

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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R₁
4.7k
Fig. 2
II. Refer to Figure 2.
1. State if the circuit below in Figure 2 is a high pass or low pass filter, and calculate a suitable capacitor
value such that the circuit has a cut-off frequency of 2 kHz.
2. The circuit shown in Figure 2 is connected to an ac voltage source of 12 V and frequency 2 kHz.
Calculate the magnitude and phase, with reference to the 12 V source, of the current in the circuit, and
the magnitude and phase of the voltage across each component.
i)
ii)
Sketch a phasor diagram indicating the source voltage, voltage across each component, and the circuit
current.
3. For the circuit shown in Figure 2:
i) Using the log-linear graph paper provided at the end of this booklet, sketch a straight-line approximation
to the filter's response, i.e. gain in dB versus frequency on a logarithmic scale, and use this to sketch an
appropriate curve approximating the filter's response. Use a frequency range from 1 Hz to 1 MHz. Attach
the graph to your answer book.
ii) State the frequency at which your straight-line approximation has the greatest error, and the value of that
error.
iii) Explain why the -3dB frequency is sometimes called the 'cut-off frequency'.
iv) State the value of the gradient of the sloping portion of your graph.
Vs
C₁
Vo
Transcribed Image Text:R₁ 4.7k Fig. 2 II. Refer to Figure 2. 1. State if the circuit below in Figure 2 is a high pass or low pass filter, and calculate a suitable capacitor value such that the circuit has a cut-off frequency of 2 kHz. 2. The circuit shown in Figure 2 is connected to an ac voltage source of 12 V and frequency 2 kHz. Calculate the magnitude and phase, with reference to the 12 V source, of the current in the circuit, and the magnitude and phase of the voltage across each component. i) ii) Sketch a phasor diagram indicating the source voltage, voltage across each component, and the circuit current. 3. For the circuit shown in Figure 2: i) Using the log-linear graph paper provided at the end of this booklet, sketch a straight-line approximation to the filter's response, i.e. gain in dB versus frequency on a logarithmic scale, and use this to sketch an appropriate curve approximating the filter's response. Use a frequency range from 1 Hz to 1 MHz. Attach the graph to your answer book. ii) State the frequency at which your straight-line approximation has the greatest error, and the value of that error. iii) Explain why the -3dB frequency is sometimes called the 'cut-off frequency'. iv) State the value of the gradient of the sloping portion of your graph. Vs C₁ Vo
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