A lossless transmission line has a generator voltage peak amplitude of 100 V. The internal resistance...

1. A lossless transmission line of length l = 0.3λ is terminated with complex load impedance...

1. A lossless transmission line of length l = 0.3λ is terminated with complex load impedance ZL = 30+ j20 Ω and characteristic impedance Z0 = 75 Ω. Calculate: a. The input impedance to the line Zin in Ω; b. The input admittance to the line Yin in S; c. The distance to first minimum from the load; d. Use Smith Chart to all above parameters

3). Consider a transmission line of length l made of conductor with resistance per unit length...

3). Consider a transmission line of length l made of conductor with resistance per unit length R, inductance per unit length L, between the two lines is dielectric material with conductance per unit length Gand capacitance per unit length C. (a) Check that the general solution of the transmission line equations is correct by substituting it back to the equations. (b) Given that the load has impedance ZL, and the generator has impedance Zg and voltage Vg(t), solve the voltage...

A 100 V source with an internal impedance ZG feeds a lossless coaxial cable at a...

A 100 V source with an internal impedance ZG feeds a lossless coaxial cable at a frequency equal to 100 MHz. The load impedance of 100 ? is compensated with a reactance XL as shown in the circuit of Figure 1, calculate: a) The reactance XL required to obtain an input impedance purely real as seen from the source. b) The input impedance of the cable. c) The average power delivered to the compensated load. d) The average power delivered...

A generator with rms voltage of rms = 120 V drives an RLC circuit at frequency...

A generator with rms voltage of rms = 120 V drives an RLC circuit at frequency f = 60 Hz. The load resistance R and reactance values of the inductor L and the capacitor C of the circuit are given by R = 50 , XL = 50 , XC = 150 , respectively What is the impedance of the circuit? What is the peak current amplitude in the circuit? What is the phase angle  of the circuit? The...

•The 3-phase system consists of a generator, circuit breaker, power transformer and extra high voltage transmission...

•The 3-phase system consists of a generator, circuit breaker, power transformer and extra high voltage transmission line. •The generator is rated at 60Hz, 1559Mva and 24kV. The sub-transient reactance is 2*%. The winding connection is wye with the neutral grounded. •The transformer is a 1550Mva, 3-phase, shell type, 2-winding transformer with a 24kV delta winding and a 525kV grounded wye winding. Neglect saturation and core losses. The exciting current is 1.0% of the rated current. The capacitance of each low...

A 100 km long, three phase 50 hz transmission line has resistance per phase per km...

A 100 km long, three phase 50 hz transmission line has resistance per phase per km of 0.1 ohms, reactance per phase per km of 0.5 ohms, susceptance per phase per km of 10 x 10-6 siemens. If the line supplies a load of 20 MW at 0.9 pf lagging at 66 KV at the receiving end, calculate the regulation and efficiency of the line using the following assumptions: a. nominal pi vector solution b. nominal T vector solution c....

An AC power generator produces 20 A (max) at 30000 V (rms). The voltage is stepped...

An AC power generator produces 20 A (max) at 30000 V (rms). The voltage is stepped down to 10000 V by an ideal transformer and the energy is transmitted through a power line which has a resistance of 50 ohms. What energy is dissipated as heat in the power line in 10 hours?. Show step by step solution

A 100 MVA, 13.2 kV three phase generator (G) having a synchronous reactance of 10% is...

A 100 MVA, 13.2 kV three phase generator (G) having a synchronous reactance of 10% is connected to a three phase Y-Y transformer T1 which feeds a 132 kV 10 miles transmission line having an impedance per phase of 2 + j5 ?/mile. At the receiving end of the transmission line is a Y-Y step down transformer T2. Three loads are connected to the secondary side of the transformer T2. Loads are as follows: Load#1 40 MVA at 0.8 pf...

Consider an op-amp connected in an inverting configuration to realize a closed-loop gain of -100 V/V...

Consider an op-amp connected in an inverting configuration to realize a closed-loop gain of -100 V/V utilizing resistors of 1k and 100 k. A load resistance RLis connected from the output to ground, and a low-frequency sine-wave signal of peak amplitude Vpeakis applied to the input. Let the op amp be ideal except that its output voltage saturates at 10 Vand its output current is limited to the range of 20 mA. 1) For RL = 1k, what is the...

A boost converter has an input voltage Vin= 10 V, switching frequency fs= 100 kHz, duty...

A boost converter has an input voltage Vin= 10 V, switching frequency fs= 100 kHz, duty ratio d=50%, load resistance RL= 20 Ω, inductance 100 μH, and capacitance 680 μF. Qualitatively describe the effect on Io, Δi_L, and Δv_C if you: a) Increase the duty ratio b) Increase the switching frequency c) Increase the load resistance