Lecture notes and videos for EE 221 Circuits II, Spring 2019

  

May 15 – final exam (comprehensive), 3:10 to 5:10 PM, closed book and notes (practice_final)   

May 8 – lec26_ee221.pdf and lec26_ee221_video – review for the final exam. 

May 6 – lec25_ee221.pdf and lec25_ee221_video – re-visit frequency response and network transfer functions.

May 1 – lec24_ee221.pdf and lec24_ee221_video – maximum power transfer, re-visit AC circuit analysis and power.

April 29 – lec23_ee221.pdf and lec23_ee221_video – the ideal transformer. Use and operation of transformers. Read Sec. 11.3-11.4 (q20)

April 24 – lec22_ee221.pdf and lec22_ee221_video – introduce magnetically coupled circuits and transformers. (datasheet, sim_example [right-click to download], reference pdf), Read Secs. 11.1-11.2 (q19)  

April 22 – lec21_ee221.pdf and lec21_ee221_video – finish-up circuit analysis using the Laplace transform. More examples. (q18)  

April 17 – lec20_ee221.pdf and lec20_ee221_video – more examples of using the Laplace transform to analyze circuits. Read Sec. 12.7 (q17)  

April 15 – lec19_ee221.pdf and lec19_ee221_video – analysis of second-order (e.g., RLC) circuits using the Laplace transform. Read Sec. 12.6 (q16) 

April 10 - no lecture

April 8 – lec18_ee221.pdf and lec18_ee221_video – more analysis of circuits using the Laplace transform. Read Sec. 12.5 (q15) 

April 3 – lec17_ee221.pdf and lec17_ee221_video – analysis of first-order circuits using the Laplace transform. Read Secs. 12.3-12.4 (q14) 

April 1 – lec16_ee221.pdf and lec16_ee221_video – start Laplace transforms. Read Secs. 12.1-12.2 (q13)

March 27 – lec15_ee221.pdf and lec15_ee221_video – continue review of RL/RC circuits.

March 25 – lec14_ee221.pdf and lec14_ee221_video – review of first-order RC and RL circuits. Read Secs. 5.4-5.5 

March 18 and 20 – Spring break from instruction  

March 13 – Midterm exam, closed book and notes (practice_midterm)  

March 11 – lec13_ee221.pdf and lec13_ee221_video – review for the midterm exam (q12)    

March 6 – lec12_ee221.pdf and lec12_ee221_video – frequency response examples (q11)     

March 4 – lec11_ee221.pdf and lec11_ee221_video – introduce frequency response. Read Sec. 9.1 (q10) 

February 27 – lec10_ee221.pdf and lec10_ee221_video – AC power. Read Secs. 8.2-8.3 (q9)  

February 25 – lec9_ee221.pdf and lec9_ee221_video – yet even more AC circuit analysis examples, discuss RMS. Read Sec. 8.1 (q8)   

February 20 – lec8_ee221.pdf and lec8_ee221_video – more AC circuit analysis examples (q7)  
February 18 – no lecture, Presidents' day
February 13 – lec7_ee221.pdf and lec7_ee221_video – AC circuit analysis examples. Read Secs. 7.4 and 7.7 (q6) 
February 11 – lec6_ee221.pdf and lec6_ee221_video – start AC analysis. Read Secs. 7.1-7.3 (pdf and MATLAB) (q5)   

February 6 – lec5_ee221.pdf and lec5_ee221_video – ideal op-amp circuits. Read Sec. 4.1 (q4) 

February 4 – lec4_ee221.pdf and lec4_ee221_video – review Thevenin and Norton equivalent circuits. Read Sec. 3.6 (q3)

January 30 – lec3_ee221.pdf and lec3_ee221_video – review dependent sources (dependent sources). Read Sec. 3.1 (q2)   

January 28 – lec2_ee221.pdf and lec2_ee221_video – review mesh analysis. Read Sec. 3.3 (q1) 

January 23 – lec1_ee221.pdf and lec1_ee221_video – course introduction, review Kirchhoff's Voltage Law (KVL) and Kirchhoff's Current Law (KCL), parallel resistance, voltage and current dividers. Read Secs. 2.2-2.3 

  

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