6 The single-phase half-wave ac voltage controller in Figure 11.1a has a resistive load of R...

6 The single-phase half-wave ac voltage controller in Figure 11.1a has a resistive load of R = 2.5 Ω and the input voltage is Vs = 208 V (rms), 60 Hz. If the desired output power is Po = 2 kW, calculate (a) the delay angle α and (b) the input PF.

Solutions

Expert Solution

Manojponduru answered 1 week ago

Next > < Previous

Related Solutions

Derive the expressions of the average load voltage and current in single-phase full-wave controlled rectifier (bridge...

Derive the expressions of the average load voltage and current in single-phase full-wave controlled rectifier (bridge rectifier) and resistive load. Draw the waveforms of supply voltage, output voltage, output current and thyristor current. In a single-phase full-wave controlled rectifier (bridge rectifier) and resistive load, it is desired to get an average load voltage of 50 V. Determine the firing angle if the ac supply voltage is 150 V. If the average load power is 300W, calculate the average load...

Compute Mathematical Analysis of 3 Phase Half wave uncontrolled AC DC rectifire using RL Load using...

Compute Mathematical Analysis of 3 Phase Half wave uncontrolled AC DC rectifire using RL Load using Fourier Series of Output Voltage and filters to remove Harmonics

Given an unfiltered half-wave rectifier circuit with an input ac voltage of 115 Vrms

Given an unfiltered half-wave rectifier circuit with an input ac voltage of 115 Vrms, a turns ratio of 4:1 (Npri:Nsec) and a load resistance of 50 Ω. Determine (a) peak value of the primary voltage, (b)peak value of the secondary voltage, (c) peak value of the load voltage, (d) dc load voltage, and (e) dc load current.

Derive the equations (for average value of load voltage) of three phase half controlled rectifier and...

Derive the equations (for average value of load voltage) of three phase half controlled rectifier and three phase full controlled rectifier ?

- Single phase controlled bridge type rectifier circuits; a. Drawing circuit shapes, input voltage and wave...

- Single phase controlled bridge type rectifier circuits; a. Drawing circuit shapes, input voltage and wave current of load current and load voltage at pure resistive load Explain in the angular velocity axis. (10 points) b. Prove mathematically how load voltage values are calculated, (10 points) c. How the output waveforms will be affected if the R-L charge feeds instead of the pure resistive charge, and you explain the reasons for this with waveforms and mathematically. (10 points)

AC Thevenin has an impedance of Zt = 6 + j75 What is the load impedance...

AC Thevenin has an impedance of Zt = 6 + j75 What is the load impedance for MPT? If a resistor was connected as load, what would the R value need to be for MPT?

Design and simulate a Half and Full wave rectifier for a 12V AC supply with 60...

Design and simulate a Half and Full wave rectifier for a 12V AC supply with 60 Hz frequency. Please use online multisim and calculation

What are the main advantages of three-phase rectification over three phase half-wave rectification? What are the...

What are the main advantages of three-phase rectification over three phase half-wave rectification? What are the main advantages of three-phase rectification over single phase? please explain with pictures( at least 2000Words).

3. A 60Hz, single phase line transmits power to an inductive load that has a receiving...

3. A 60Hz, single phase line transmits power to an inductive load that has a receiving voltage of 13.8KV, reactive factor of 0.6 and 5 MVA respectively. If this line has a impedance of 1+j2 ohms per conductor, Calculate the following: The voltage at the sending end (10 pts) b. The transmission line efficiency (10 pts) c. If this line is connected in parallel to a telephone wire and the conductors of the power line is labelled a and b...

Examples and describe voltage, current, and phase angle. Describe power and resonance in ac circuits. Examples...

Examples and describe voltage, current, and phase angle. Describe power and resonance in ac circuits. Examples in daily life and explain how transformers work. PLEASE DO NOT WRITE IT BY HAND

Subjects