Demonstrate in Multisim a full wave bridge rectification which produces a negative voltage at the output....

Demonstrate in Multisim a full wave bridge rectification which produces a negative voltage at the output. With input voltage set as 10sin(80*pi*t). Take RL=5.7kΩ. Show the desired output in oscilloscope with proper scaling. Also perform filtration with capacitor having the value 50 uF.

Solutions

Expert Solution

Here is the circuit, before the filtration

Here is the oscilloscope output that showing the negative voltage

Here is the circuit with the filter capacitor of 50uF

Here is the Oscilloscope output

Please Thumbs Up, it will be very helpful

Manojponduru answered 2 hours ago

Next > < Previous

Related Solutions

For a power supply with full wave bridge rectifier, input voltage is 230 V and required...

For a power supply with full wave bridge rectifier, input voltage is 230 V and required output voltage is 12 V DC Load resistance is of 100 . Determine output rms voltage, dc current, rms current, power, ac power, efficiency of the rectifier, form factor, ripple factor, transformer utilization factor, and size of the transformer Draw complete diagram of the supply circuit

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...

Create a 1Mhz sine wave output without any crystal oscillator in Multisim. This will be used...

Create a 1Mhz sine wave output without any crystal oscillator in Multisim. This will be used in AM transmitter.

An Uncontrolled Full-Wave full-bridge rectifier with RL-Source load and Discontinuous load current is to be designed...

An Uncontrolled Full-Wave full-bridge rectifier with RL-Source load and Discontinuous load current is to be designed based on the following assumptions and constraints. Design the circuit and calculate the parameters of the rectifier based on the following assumptions and constraints. Simulate the designed rectifier in PsPice and compare the simulated and the calculated results. a) The AC source is 220 V rms at 50 Hz. Vdc= 65 V, power absorbed by the resistor is 360 W. b) The AC source...

The controlled full wave rectifier is connected to the grid. The rms grid voltage is 230...

The controlled full wave rectifier is connected to the grid. The rms grid voltage is 230 Volt at 50 Hz. 24 Volt battery will be charged with 15A. An inductor, which is series connected to the battery, is used to limit the current ripple. Only The second harmonics of the output voltage is taken into account. The inductor R/L ratio is 50. The current ripple is allowed to be 4 amp peak to peak. Determine the firing angle and R...

- 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)

Re-submission of question. Consider the full-bridge single-phase inverter with input voltage equal to 200

Re-submission of question. Consider the full-bridge single-phase inverter with input voltage equal to 200V. This inverter is controlled by sinusoidal PWM technique with amplitude modu- lation index equal to 0.5 to generate a 3- level half-wave symmetry waveform with frequency equal to 50 Hz. e)Calculate the amplitude of fundamen- tal frequency. f) Draw the waveforms of refrence and carrier signals. g) Obtain the waveform of output voltage. h)Design the trigger signals of switches. Thanks for your help.

explain the following, enhance will sketches and describe the output voltage. - Sinusoidal PWM - Full...

explain the following, enhance will sketches and describe the output voltage. - Sinusoidal PWM - Full bridge inverter single phase - Bipolar PWM single phase inverter - Uni-polar WM single phase inverter - three phase inverter

What is the high voltage and insulation tests for transformers ? How we can generate full-wave...

What is the high voltage and insulation tests for transformers ? How we can generate full-wave ,chopped-wave and switching wave voltages in Marx generator for (Lightning and switching impulse tests )?

If a negative externality exists, then there is a __________ when society produces the market output...

If a negative externality exists, then there is a __________ when society produces the market output instead of the socially optimal output. This exists because the __________ to sellers and third parties are __________ the __________ derived by buyers. a. net social benefit; costs; greater than; benefits b. net social cost; benefits; less than; costs c. net social cost; costs; greater than; benefits d. net social cost; costs; less than; benefits e. none of the above

Subjects