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- Á¶±³ Áöµµ ÇÏ¿¡ CST Studio Simulation: ¼ö¾÷½Ã°£¿¡ ¼öÇàÇÏ¿© Á¦Ã⠶Ǵ Take-home ¼öÇàÇÏ¿© Á¦Ãâ

- ½ÃÇè°ú ½Ç½ÀÀº eCampus °¢ ÁÖÂ÷ °úÁ¦¶õ¿¡ Á¦Ãâ: Á¦Ã⸶°¨ ´ÙÀ½ ÁÖ ¼ö¾÷ÀÏ 23½Ã59ºÐ

- °úÁ¦¿ë Çлý°íÀ¯¹øÈ£ PIN: Çб³¿¡ µî·ÏµÈ ÀÚ½ÅÀÇ À̵¿ÀüÈ­ ³¡ 4ÀÚ¸®. ´Ü °¢ ¼ýÀÚ°¡ 0ÀÎ °æ¿ì ¼øÂ÷ÀûÀ¸·Î 1, 2, 3, 4·Î ´ëü.

 

Week-01: Introduction to Lecture

 

Week-02: Introduction to Radars

CST ½Ç½À: Half-wave dipole gain patterns (htm, mp4, mp4-´©¶ôºÐ)

 

Week-03: Radar Equations

CST½Ç½À: Antenna polarization loss, Lab instructions (htm), Simulation guide (htm)

(Homework)

1) Given Pt = 1W, Gt = 10 dB, R = 10 m, find the power density S(W/m2)

2) Given a receiviing antenna with Gr = 10dB, find the effective area Ae(m2) of the antenna.

3) Given a target with RCS ¥ò = 1m2, find the received power with a radar with its parameters given in 1 and 2. 

 

Week-04: Test 1 (ºñ´ë¸é)

Problems

1) Write down the technical specifications of the UK Chain Home Radar System of 1940s.

     Frequency range =

     Azimuth beamwidth =

     Peak power =

     Detection range of a German bomber =

2) Search the internet to describe what is an instrumentation radar.

3) Write down the range of frequency where the radar operates.

4) Write down the frequency range of the S band.

5) 4. Use CST Studio Suite to find the polarization efficiency of two dipole antennas the angle between whose axes is 60¨¬.

 

Week-05: Radar Signal Propagation

CST ½Ç½À: Inverted-L and inverted-F antenna, Lab instructions (htm), Simulation guide (htm)

 

Week-06: Radar Cross Section

CST ½Ç½À: Loop antennas: instructions, guide

 

Week-07: Test 2 (ºñ´ë¸é)

Write down keywords in the lecture notes for Weeks 2, 3, 5, and 6.

 

Week-08: Target Detection

CST ½Ç½À: Linear array of half-wave dipoles: instructions, guide

 

Week-09: Radar Antennas

CST ½Ç½À: Ring hybrid coupler: docx, cst, jpg

 

Week-10: Test 3 (ºñ´ë¸é)

     Write down keywords of the lecture notes for Weeks 8 and 9.

 

Week-11: Radar Clutter

CST ½Ç½À: Folded Lange coupler: docx, cst, jpg

 

Week-12: Clutter Rejection

À̷нǽÀ: Microstrip lines (doc)

 

Week-13: Test 4 (ºñ´ë¸é)

Write down keywords of the lecture notes for Weeks 11 and 12.

 

Week-14: Target Tracking

CST ½Ç½À: Microstrip quarter-wave transformer (htm)

 

Week-15: Radar Transmitters & Receivers

CST ½Ç½À: Printed inverted-F antenna (htm)