Experiment-3Power Electronics Lab.(Practical)Single Phase Full Wave Controlled RectifierWith Different LoadsTo study principle operation of a single phase half wave controlled rectifierwith different loads.LoadThe ProceduresFig. (1)1 - Connect the circuit fig. (1) (with pure resistive load).2- Change the value of the firing angle (a) from (0 to 180 ° step 18°) and thendetermine the DC value (Vde) and RMS value and (Vms) of the load voltage (byusing the AVO meter).3- At (a =36°) and (a =72°), draw to scale the load voltage using an oscilloscope.3- Connect an inductive with a suitable value in series with the resistive load and thenrepeat the steps (2) and (3) above.The Report1- State some advantages and applications of the experiment.2- For the same circuit shown in fig (1), determine the DC and RMS values of theload voltage at (a =36') and (a =72") (theoretically).3- For the same circuit shown in fig. (1) at (a =36°), compare between the loadvoltages (Vdc and Vms) when operating at (resistive load and inductive load).4 Repeat step (3) above, at (a =72°).5-) Comment on your results.

Answered: Image /qna-images/answer/d4b7add4-fc70-48d0-b7a0-cacd1c5a5e33.jpg

Answered: Voltages de and when operating at…

Voltages de and when operating at resistive load and inc ctive rms Repeat step (3) above, at (a =72°). Comment on your results.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Question

Experiment-3
Power Electronics Lab.
(Practical)
Single Phase Full Wave Controlled Rectifier
With Different Loads
To study principle operation of a single phase half wave controlled rectifier
with different loads.
Load
The Procedures
Fig. (1)
1 - Connect the circuit fig. (1) (with pure resistive load).
2- Change the value of the firing angle (a) from (0 to 180 ° step 18°) and then
determine the DC value (Vde) and RMS value and (Vms) of the load voltage (by
using the AVO meter).
3- At (a =36°) and (a =72°), draw to scale the load voltage using an oscilloscope.
3- Connect an inductive with a suitable value in series with the resistive load and then
repeat the steps (2) and (3) above.
The Report
1- State some advantages and applications of the experiment.
2- For the same circuit shown in fig (1), determine the DC and RMS values of the
load voltage at (a =36') and (a =72") (theoretically).
3- For the same circuit shown in fig. (1) at (a =36°), compare between the load
voltages (Vdc and Vms) when operating at (resistive load and inductive load).
4 Repeat step (3) above, at (a =72°).
5-) Comment on your results.

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