Welcome to ECE 329 Section F!

MWF Asynchronously

Instructor: Yang (Victoria) Shao

Email: yangshao@illinois.edu

Office hour: Tu. 11:00am-12:00pm Zoom
Meeting ID: 876 6232 9668 Password: 714257

Section F lecture videos are on Mediaspace following MWF schedule. If you sign up for section F, you are required to watch the videos and answer a few questions through Webtools before MWF 11:59pm. Your actions will be recored on Mediaspace and Webtools, and used as your class participation (1% of your final grade).

Date

Notes

Agenda

Recordings

Apr. 9

Empty notes

TL circuit and bounce diagram

Today's notes

Lecuture handout

ECE329 L30 part 1

00:00 – 11:04 Transmission Line circuit

11:04 – 20:42 Matched TL at load end

20:42 – end Injection coefficient at source end

ECE329 L30 part 2

00:00 – 13:44 Bounce diagram introduction

13:44 – end Coefficients in Bounce diagram

Participation

Watch recordings, then submit your answers to https://forms.illinois.edu/sec/130164773 (due 04/09 11:59pm)

https://mediaspace.illinois.edu/media/t/1_78u9pky9

https://mediaspace.illinois.edu/media/t/1_3cpz60qq

Apr. 7

Empty notes

Transmission line

Today's notes

Lecuture handout

ECE329 L29 part 1

00:00 – 21:09 Telegrapher’s equations

21:09 – end Coefficients in Telegrapher’s equations

ECE329 L29 part 2

00:00 – 05:18 Wave equation for V and I

05:18 – 18:21 V and I wave propagation transmission line

18:21 – end Physical meaning of wave propagation

Participation

Watch recordings, then submit your answers to https://forms.illinois.edu/sec/1673984571 (due 04/07 11:59pm)

https://mediaspace.illinois.edu/media/t/1_extikh9s

https://mediaspace.illinois.edu/media/t/1_q4vayigk

Apr. 5

Empty notes

Transmission line

Today's notes

Lecuture handout

ECE329 L28 part 1

00:00 – 16:18 Standing wave and power density

16:18 – end Effective surface current

ECE329 L28 part 2

00:00 – 07:16 Transmission Line overview

07:16 – 18:19 How to excite TL

18:19 – end Methods to calculate TL

Participation

Watch recordings, then submit your answers to https://forms.illinois.edu/sec/107134791 (due 04/05 11:59pm)

https://mediaspace.illinois.edu/media/t/1_543grebe

https://mediaspace.illinois.edu/media/t/1_oa0k6s14

Apr. 2

Empty notes

Today's notes

Partial and total reflections

Lecuture handout

ECE329 L27 part 1

00:00 – 05:39 Review wave reflection and transmission

05:39 – 10:27 Anti-reflecting coating

10:27 – end Time average Poynting vector example

ECE329 L27 part 2

00:00 – end Standing wave

Participation

Watch recordings, then submit your answers to https://forms.illinois.edu/sec/265440636 (due 04/02 11:59pm)

https://mediaspace.illinois.edu/media/t/1_jos9n9cm

https://mediaspace.illinois.edu/media/t/1_clmx610r

Mar. 31

Empty notes

Today's notes

Lecuture handout

ECE329 L26 part 1

00:00 – 09:58 Polarization example

09:58 – end Wave propagation

ECE329 L26 part 2

00:00 – 11:30 Incident, transmitted wave, and reflected wave

11:30 – 21:48 Reflection and transmission coefficient

21:48 – end Special cases

Participation

Watch recordings, then submit your answers to https://forms.illinois.edu/sec/893191366 (due 03/31 11:59pm)

https://mediaspace.illinois.edu/media/t/1_8fp0l2jb

https://mediaspace.illinois.edu/media/t/1_qthns9t1

Mar. 29

Empty notes

Today's notes

Lecuture handout

ECE329 L25 part 1

00:00 – 10:38 Linear Polarized Wave

10:38 – 17:24 Circular Polarized Wave

17:24 – end Right-hand and left-hand Circular Waves

ECE329 L25 part 2

00:00 – 09:29 Right-hand and left-hand Circular Waves continue

09:29 – 13:53 Transformation between Linear and Circular Polarized Waves

13:53 – end Demo of Wave propagation in 3-D space

Participation

Watch recordings, then submit your answers to https://forms.illinois.edu/sec/1464038097 (due 03/29 11:59pm)

https://mediaspace.illinois.edu/media/t/1_h1vm0rey

https://mediaspace.illinois.edu/media/t/1_sg6lgpby