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For the circuit shown below find the values of the reactance X and the characteristic impedance...
Q.8 For the circuit shown all values of impedance are given in ohms: a) Calculate the value of load impedance that will cause maximum power to be delivered into the load b) Calculate the power delivered to the load when it has the value calculated in part a) 10A j5 10V Load j5
Questions: For circuit A5-1 below, solve for the total internal impedance (resistance and reactance) of each transformer 1) referred to its primary side (ZAB, Zec) Write answer in phasor form. (4 marks) For circuit A5-1 below, given that the input voltage to transformer BC is 225 KVZ0°, and Z is 300Z15°, solve for %VR = 2NL-V2FL x 100% V2FL (3 marks) the voltage regulation of transformer BC for the connected load. For circuit A5-1 below, given that the input voltage...
8.16 Using matching network shown below, find the stub length ls the characteristic impedance Zou and the transmission line length 11 such that the ZL = (80-j40) Ω load impedance is matched to a 50 Ω source. Assume that the characteristic impedance of the stubs Zos = 50 Ω. Zas ls Zin Open or short circuit
8.16 Using matching network shown below, find the stub length ls the characteristic impedance Zou and the transmission line length 11 such that the...
A lossless transmission line with characteristic impedance of 75Ω measures 1.4λ at a certain working frequency. The line is powered by a generator with negligible impedance and an open circuit voltage of Vg=10∠0° [V]. A load of 50-i50Ω is connected at the end of the line. Find a) The reflection coefficient. b)The stationary wave ratio. c)The input impedance of the line. d)The voltage at the entrance of the line. e)The voltage at the load. f)The average power delivered to the...
For the circuit below, Z, is a variable Impedance connected between (a) & (b) .Find the Thevenin equivalent circuit as seen by Z 604-45 V z, 24560 60Ω j60Ω Adjust value of the load Z such that the load average power is maximum and find P (max)
For the circuit shown above,
(a) determine the impedance ZL results in maximum average power
transfer to ZL ?
(b) What is the maximum average power transferred to the load
impedance determined in (a) ?
20/0° © 2003 -j6n+ Z For the circuit shown above, (a) determine the impedance ZL results in maximum average power transfer to ZL? (b) What is the maximum average power transferred to the load impedance determined in (a) ?
2. In the circuit shown below, the operating frequency for the transmit antenna is 300 MHz. At this frequency, we can represent the transmission line and antenna with a resistive load RL. This resistance accounts for radiated electromagnetic wave. The variable capacitor and inductor shown were tuned to achieve an impedance matching condition, i.e. where ZL is the impedance of the transmission line-antenna assembly and Zr is the Thévenin equivalent impedance of the driver circuit, including R., C and L....
Q4: For the circuit shown in figure below, find the value of impedance Z that will receive maximum power, and determine this power. (15Marks) 85 22 -j10022 170 20° V 200000 j2002 50 22
3. The load impedance Z, in the following povwier circuit is adjusted until the maximum average delivered to the load is delivered to it Find the value of the maximum average power mpedance. (25) 10?
Solve by hand and simulate in any electrical circuit
simulator preferrably LTSpice
Solve by hand only.
Problem #4: Consider the circuit shown below. 6Ω /8 Ω 302 2700 V (rms) 40 2 Source-Line Load (a) Find the real power dissipated in the line. (b) Find the capacitive reactance that when connected in parallel with the load will pl make the load look purely resistive. (c) What is the equivalent impedance of the load in (b)? (d) Find the real power...