Ex1: ZL = 100 - j50 ohm if Zo = 50. Find VSWR

In a R-L-C AC circuit, R= 5 Ohm, ZL= j 7 Ohm, ZC= -j 6 Ohm....

In a R-L-C AC circuit, R= 5 Ohm, ZL= j 7 Ohm, ZC= -j 6 Ohm. Supply voltage is v= 6 sin( 5 t). Calculate the ANGLE of Z.

A 100 + j200 ohm load is connected to a 75 ohm transmission line that is...

A 100 + j200 ohm load is connected to a 75 ohm transmission line that is 1 m long. If signal wavelength on the line is 8 m, find the input impedance and the signal frequency. Assume that the phase velocity is 70% of the speed of light in free space

Hi, Given: R = 30 ohm/km L = 20mh/km C = 50 nF/km G = 20nS/km...

Hi, Given: R = 30 ohm/km L = 20mh/km C = 50 nF/km G = 20nS/km f = 10 kHz, 10 MHz, 1.5 MHz 1) Calculate the Zo of the transmission line (in a table) 2) Calculate the speed of propagation of the signal 3) What can be said about the nature of wave propagation on this line? Thank you.

1. A R-L circuit consists of one resistance 2.0 Ohm and one unknown Inductance. A voltage...

1. A R-L circuit consists of one resistance 2.0 Ohm and one unknown Inductance. A voltage v=54 sin(399 t) is applied to this circuit and measured current is 2.77 A. Find out the unknown Inductance in mH unit. 2. In a R-L-C AC circuit, R= 7 Ohm, ZL= j 8 Ohm, ZC= -j 15 Ohm. Supply voltage is v= 15 sin( 7 t). Calculate the ANGLE of Z.

Design an L-type network using discrete components (inductors and / or capacitors) to couple a load...

Design an L-type network using discrete components (inductors and / or capacitors) to couple a load of ZL = 150-j200 Ohms to a system with Zo = 100 Ohms. Please include Smith Chart if used

a 10-volt battery connected across a parallel combination of a 100 (ohm) fixed resistor and a...

a 10-volt battery connected across a parallel combination of a 100 (ohm) fixed resistor and a variable resistor R. It can be shown that the total current in the circuit I (in amperes, A) is the following function of the variable resistor R (in ohms): I= ((100+R)/10R) If the variable resistance is decreased at a rate of 5 ohm/s, calculate the rate of change in the current with time when the variable resistance is 50 ohms.

for an common emitter amplifier with load of 100 ohm , collector resistance of 18 ohms...

for an common emitter amplifier with load of 100 ohm , collector resistance of 18 ohms and emmiter resistance of 178,8 ohm , the gain is approximately

Assume a transmission line with ZL = 100 + j25 Ω Ω and Z0 = 50...

Assume a transmission line with ZL = 100 + j25 Ω Ω and Z0 = 50 Ω. Using the smith chart, find i) the normalised load impedance; ii) the corresponding reflection coefficient; iii) the standing wave ratio; iv) the distance between the load and the first voltage maximum; v) the distance between the load and the first voltage minimum; vi) the normalised admittance; vii) the input impedance at 0.2λ from the load. (Show all steps on the Smith chart).

A 10 ohm and a 15-ohm resistor are connected in parallels to a 12 V battery....

A 10 ohm and a 15-ohm resistor are connected in parallels to a 12 V battery. Find the following: a. The total resistance. b. The total current in the circuit. c. The total power supplied by the battery. d. Find the resistance of copper wire with a diameter of 4E-3 m and a length of 50 m. The resistivity at 20 0C is 1.68E-8 ohm-m. e. Two parallel, long wires are separated by 0.50 m. Wire 1 carries a current...

Resistor R1=3.7 Ohm is connected in series to parallel combination of resistors R2=7.9 Ohm and R3=11.1...

Resistor R1=3.7 Ohm is connected in series to parallel combination of resistors R2=7.9 Ohm and R3=11.1 Ohm. Find equivalent resistance of this combination. Give answer in Ohms. Resistor R1=3.7 Ohm is connected in series to parallel combination of resistors R2=7.9 Ohm and R3=10.7 Ohm. This combination is connected to the ideal battery of V=10.6 V. Find current through the R3. Give answer in A.