EE368/EE394J-1, Spring 06, Dr. Grady
Roy Blackshear, Manager of AEP's Desert Sky Wind Farm, guest lectures
Course Descriptor
(pdf)
Notes for you to print and study
Section 1. Definitions and the Per Unit System
(pdf)
Notes_on_Single_Phase_Power
(pdf)
Notes_on_Balanced_Three_Phase_Phasors
(pdf)
Notes_on_Transformer_Models_and_Connections
(pdf)
Notes_on_Per_Unit
(pdf)
Notes_on_Grainger_Stevenson_Problems
(pdf)
Notes_on_Transmission_Line_L_and_C
(pdf)
Notes_on_Transmission_Line_Constants_PosNegZero
(pdf)
Notes_on_Transmission_Line_Examples
(pdf)
Notes_on_Markt_Mengele_Method
(pdf)
Section 3. Transformers, Transmission Lines, and Underground Cables
(pdf)
Section 2. Symmetrical Components
(pdf)
Section 8. Short Circuit
(pdf)
Harmonics Chapter 1. Introduction
Harmonics Chapter 2. Fourier Series
Harmonics Chapter 3. Definitions
Harmonics Chapter 4. Sources
Harmonics Chapter 5. Effects and Symptoms
Harmonics Chapter 6. Conducting an Investigation
Harmonics Chapter 7. Standards and Solutions
Harmonics Chapter 8. Case Studies
Excerpts on Transmission Lines, Grounding, and Shock Hazards from Prof. Weeks
(pdf)
Notes on Ground Rods and Shock Energy
(pdf)
Greenwood Lightning Problems 14.4, 14.6 (for both problems, first used footing resistance = 40 ohms, and then used footing resistance = 10 ohms),
Greenwood_14.4_14.6_solutions.pdf,
Greenwood_14.4_14.6_Excel.zip
Lightning, Step Potential, Shock Energy Homework (using Excel).
(Problem and Solution),
Bounce_Solution.xls,
Shock_Energy_Solution.xls
Harmonics Appendix A3. Operation of Six-Pulse Line-Commutated Converter
Other supplemental notes
Notes_on_Complex_Numbers_and_Phasors
(pdf)
Notes_on_Cosine_Sums
(xls)
Notes_on_Voltage_Current_Power
(xls)
Notes_on_Important_Concepts_in_Three_Phase_Systems
(pdf)
Notes_on_Mutual_Inductance
(pdf)
Notes_on_Coupled_Coils_and_Transformers
(pdf)
Harmonics Appendix A1. Fourier Spectra Data
Excel-based
spreadsheet
for studying waveforms of six-pulse line commutated converters
Homework
HW#1, (pdf)
, due Friday, Jan. 27.
(solutions)
HW#2, Probs. 2.37, 2.38, 2.39, 2.40, due Monday, Feb. 6.
(solutions)
HW#3, Probs. 3.7, 3.11, 3.12, 3.18, 3.29, 3.41, due Monday, Feb. 13.
(solutions)
HW#4, Probs. 4.3, 4.19, 4.24, 4.32, due Monday, Feb. 20.
(solutions)
HW#5, Probs. 5.20, 5.21, 5.22, 5.25, due Monday, Feb. 27.
(solutions)
HW#6, Probs. 7.9, 7.10. Use a 100MVA base in both problems (instead of 1000MVA base). Due Friday, Mar. 10.
(solutions)
HW#7, Probs. 9.4, 9.5 (using n = 1), 9.19, and 9.20. Use a 100MVA base. The problems refer to Figure 7.12 (instead of Figure 7.10). Due Friday, Mar. 24.
(solutions)
HW#8, (zipped materials), due Monday, April 3.
(solutions),
(CAP_DIST_Zoom_In.xls),
(CAP_TRANS_Zoom_In.xls)
HW#9, (instructions), (zipped materials, revised), due Monday, Apr. 10.
(solutions)
HW#10, (instructions), (zipped materials), due Monday, Apr. 17.
HW#11,12,13,14,15 (instructions), (see pdf for due dates)
(solutions)
Tests
Test#1, (pdf)
Test#2, (pdf)
Final Exam, (pdf)