Fundamentals of Electromagnetics with Engineering Applications
1st Edition
ISBN: 9780470105757
Author: Stuart M. Wentworth
Publisher: Wiley, John & Sons, Incorporated
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Question
Chapter 10, Problem 10.35P
To determine
The insertion loss expression for a high pass filter realized using a series capacitor and capacitance value needed for a given cut off frequency.
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Chapter 10 Solutions
Fundamentals of Electromagnetics with Engineering Applications
Ch. 10 - A matching network consists of a length of a...Ch. 10 - Design an L-section matching network to match a...Ch. 10 - Design an L-section matching network to match an...Ch. 10 - Design an L-section matching network to match a...Ch. 10 - Suppose you want to match a 100 line to a load...Ch. 10 - Prob. 10.7PCh. 10 - Prob. 10.8PCh. 10 - Prob. 10.9PCh. 10 - Prob. 10.10PCh. 10 - Suppose the L-section matching network of Example...
Ch. 10 - Find the scattering matrices for the simple...Ch. 10 - Cut a 50- T-line and insert a series 50- resistor...Ch. 10 - Prob. 10.14PCh. 10 - A series capacitor of value C=2.0pF is inserted in...Ch. 10 - A series inductor of value L=3.5nH is inserted in...Ch. 10 - Prob. 10.17PCh. 10 - The scattering matrix (assuming a 50- impedance...Ch. 10 - Three T-lines with the same characteristic...Ch. 10 - Consider a three-port network that is matched at...Ch. 10 - Prob. 10.21PCh. 10 - Calculate the insertion loss and the VSWR for the...Ch. 10 - Prob. 10.23PCh. 10 - Verify the scattering matrix (10.27) for the...Ch. 10 - Prob. 10.25PCh. 10 - Prob. 10.26PCh. 10 - A four-port 20-dB coupler is specified as having...Ch. 10 - Suppose the coupling for an ideal symmetrical...Ch. 10 - Suppose to port 1 of an ideal ring hybrid coupler...Ch. 10 - Prob. 10.30PCh. 10 - Prob. 10.31PCh. 10 - Prob. 10.32PCh. 10 - Suppose you join a pair of quadrature hybrid...Ch. 10 - Prob. 10.34PCh. 10 - Prob. 10.35PCh. 10 - Prob. 10.36PCh. 10 - Prob. 10.37PCh. 10 - Prob. 10.38PCh. 10 - Prob. 10.39PCh. 10 - Prob. 10.40PCh. 10 - Starting with the Figure 10.28b circuit...Ch. 10 - Starting with the Figure lO.28b circuit...Ch. 10 - Prob. 10.43PCh. 10 - Starting with the Figure 10.28a circuit...Ch. 10 - Prob. 10.45PCh. 10 - For Problem 10.45, (a) design open-ended shunt...Ch. 10 - Prob. 10.47PCh. 10 - Prob. 10.48PCh. 10 - Prob. 10.49PCh. 10 - Prob. 10.50PCh. 10 - Prob. 10.51PCh. 10 - Referring to Example 10.21 and Figure 10.48,...
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Similar questions
- 2) Create Bode plots of the magnitude transfer functions of your low-pass and high-pass filters. The theoretical plots (using measured values of resistors and capacitors) should be drawn as lines. Include your data (taken at 1/10, 2, 1, 2, and 10 times the cutoff frequency) as points.arrow_forwardA.) A circuit has R = 12ohms, L = 50mH and C = 35.181 microfarad components.Determine the upper and lower frequencies and the resonance frequency. Determinealso the bandwidth and the power at half power points if the supply voltage is 60V ac. B.) A circuit resonates at 750Hz with a resistance of 100ohms and 12microfarad.Determine the inductance necessary to achieve this resonance frequency.arrow_forward3. Using straight line approximation draw the Bode magnitude response diagram of a system with transfer function 10(0.01s +1) G(s) = T0.01s + 0.1s + 1) %3Darrow_forward
- A resistive load is connected across the outout terminals of the band-reject filter for the loaded filter circuit is shown below. a. Find the voltage transfer function H(s) = V_o (s) / V_i (s) b. What is the expression for the center frequency?arrow_forwardAn RLC Series circuit is connected to a 20V variable frequency supply. If R=20ohms, L=20mH and C=0.5uF. Calculate the Resonant frequency, the resonant circuit Qo using L/C ratio, half-power bandwidth using fr and Qo, half-power bandwidth using the general formula for any bandwidth, half-power Bandwidth using the given component values and maximum power dissipated at fr.arrow_forwardProblem 6: Consider the angle modulated signal o (t) = 10cos (2n10 t+ 2 sin 2r10*t). Assume that the signal is FM. Find the bandwidth of the FM signal when the message frequency is (1) doubled, and (2) is halved.arrow_forward
- 4.) Given the following LRC circuit (L = .012 H, R = 8 ohm, C = 2 F, w = 2*60*pi), Vmax = 100V. A.) Draw a phasor diagram of the circuit. B.) By what degree does the voltage source lead or lag the current? C.) What frequency of the voltage source is necessary to reach resonance?arrow_forwardIn a series RLC circuit that is operating above the resonant frequency, the current leads the *.applied voltage False True At any resonant electric circuit the input impedance is reactance and is *.equal to (XL or XC) False True In order to tune a parallel resonance circuit to a lower frequency, the * capacitance must be decreased True Falsearrow_forwardD Consider an L-R-C series (inuit with a 300mH inductor, a 0.47 MF Capacitor and a 500-2 resistor. The source has teminal mms voltage Vrms = 100 V and variable angular frequency w. For what two values of the angular Requency, w₁ and W₂ is the the resonance value) Also calculate the resonance width |w₁-W2). (IFS 2022, ISM). rms Current halfarrow_forward
- 400 We consider the transfer function G(jw) = 2(jw)²+8(jw)+200 1. Determine the static gain K, the undamped clean pulse w, (break pulse) and the depreciation rate 5 2. Determine the module |G(jw)| at the own undamped pulsation. 3. Sketch the Bode diagram highlighting the asymptotes and the resonance.arrow_forwardDesign a lumped-element high-pass filter with the following specifications: Cutoff frequency 10 GHz, rejection 50 dB minimum at 2 GHz. Ripple = 0.1 dB.arrow_forward70.7% voltage loss corresponds to _% power loss and a decibel value of dB. (include appropriate sign on dB value to indicate a loss). Relative phase difference between capacitor and inductor voltages is degrees. A filter has BW = 18kHz and center frequency of 120kHz. Find the Q to the %3D hundredths place. Round carefully. Q= Phase shift between source voltage and load voltage at resonant frequency for RLC bandpass filter is always |deg.arrow_forward
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