Assessment Title - Transformation Theorems
TASK INTRODUCTION - You are a consultant electrical engineer. You have been asked to analyse a number of AC equivalent circuits using transformation theorem and document your findings in a technical report.
TASK 1: Calculate the parameters of AC equivalent circuits using transformation theorems
You must answers parts A, B and C
Part A: For the circuit shown below determine:-
(i) The value of R to provide maximum power to the load
(ii) The maximum power transferred in the load.
Part B:
(i) A delta configured network has the following values ZA = j15Ω, ZB = -j20Ω and ZC = 5Ω. Convert the network to star configuration.
(ii) A star configured network has the following values Z1 = j20Ω, Z2 = j10 Ω and Z3 = -j5Ω. Convert the network to delta configuration.
Part C: For the network shown below determine the current with phase angle and power dissipated in the load connected between A and B using ONE of the following circuit transformation theorems.
(i) Thevenin
(ii) Norton
Opportunity for merit -
You must coherently present and communicate your work using technical language accurately in a technical report.
- Title page
- Contents page
- Introduction
- Separate sections for Part A. B and C.
- You will need to use a different transformation theorem to verify your results in Part C.
- Critically evaluate the two transformation theories used in Part C.
- References and bibliography.
Assessment Title - Coupled Magnetic Circuits
Task Description - You are consultant electrical engineer. You have been asked to magnetically coupled circuits and document your findings in a technical report.
TASK 1: Analyse the operation of magnetically coupled circuits
Part A: List the main factors that causes magnetic coupling in electric circuits.
Part B: Two coils are connected in series and their effective inductance is found to be 15mH. When the connection to one coil is reversed, the effective inductance is found to be 10mH. If the coefficient of coupling is 0.7, determine the self inductance of each coil.
Part C: The circuit diagram of an air-cored transformer is shown below. The coefficient of coupling between primary and secondary windings is 0.7. Determine:
(a) The mutual inductance
(b) The primary current
(c) The secondary current and terminal load voltage.
Opportunity for Merit. Produce a technical report documenting task 1 using the correct structure and layout that has been word processed.
- Title page
- Contents page.
- Introduction.
- Separate sections for Parts A, B and C.
- Use a variety of research methods for Part A.
- Include additional research when explaining Pads B and C.
- References and Bibliography.
Just need to write the merits.
Attachment:- Assignment Files.zip