Unit Engineering Wiki

User Tools

Site Tools

Trace:
rfmeasurement:ringresonatormethod

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revisionPrevious revision
Next revision		Previous revision
rfmeasurement:ringresonatormethod [2021/10/20 23:08] – [The Ring Resonator Design] neilhaorfmeasurement:ringresonatormethod [2023/02/11 17:30] (current) – external edit 127.0.0.1
Line 25: Line 25:
  
 When Er = 1, the resonate frequency points can be calculated by following equation: When Er = 1, the resonate frequency points can be calculated by following equation:
-{{ :rfmeasurement:ringresonatormethod_frequency_points_equation_.png?nolink |}}+{{:rfmeasurement:ringresonatormethod_frequency_points_equation_.png?nolink|}}
  
 Thus, Thus,
Line 36: Line 36:
 |n=6 |Fo(6)=14.32129576 GHz| |n=6 |Fo(6)=14.32129576 GHz|
  
 +When Er = 9.8, the simulated resonate frequency points:Β 
 +{{ :rfmeasurement:ringresonatormethod_simulatedresults.png?nolink&350 |}}
  
 ===== Measurement ===== ===== Measurement =====
 +{{ :rfmeasurement:ringresonatormethod_fixture.png?nolink&600 |}}
 +Six peaks of S21 were measured within the frequency from 300KHz to 6GHz:
 +{{ :rfmeasurement:ringresonatormethod_measuredresults.png?nolink&350 |}}
 +Thus for Fn with n=1…6,
 +^N  ^Fn             |
 +|1  |F1 = 0.9483 GHz|
 +|2  |F2 = 1.896 GHz |
 +|3  |F3 = 2.844 GHz |
 +|4  |F4 = 3.78 GHz  |
 +|5  |F5 = 4.728 GHz |
 +|6  |F6 = 5.652 GHz |
 +
 +The effective dielectric constant is defined as
 +{{ :rfmeasurement:ringresonatormethod_effective_dielectric_constant.png?nolink |}}
 +And due to (W/H) <1, so that the dielectric constant is defined as
 +{{ :rfmeasurement:ringresonatormethod_dielectric_constant.png?nolink |}}
 +H is substrate thickness, 0.5mm for this DUT
 +
 +W is the width of microstrip line, 0.48mm for this DUT
 +
 +Finally, the effective dielectric constant and dielectric constant can be calculated by using above two equations:
 +{{ :rfmeasurement:ringresonatormethod_finalresults.png?nolink |}}
 +We could conclude that this substrate has stable dielectric constant (Er) over wide frequency range. The average dielectric constant within the frequency from 1GHz to 6GHz is 9.42.
  
 ===== Reference ===== ===== Reference =====
 +[1] Neil Hao. The Considerations of Antenna Design for IOT and Wearable Devices. Retrieved Oct 21, 2021, from https://uniteng.com/index.php/2019/11/20/the-considerations-of-antenna-design-for-iot-and-wearable-devices/
 +
 +[2] Measuring the dielectric constant πœΊπ’“ of Teflon, Polyester, FR4, G10, or FR4 with an RF generator and a good bolometer. Retrieved Oct 21, 2021, from https://www.e-doodles.it/wp-content/uploads/2019/05/Measuring-the-dielectric-constant-%CE%B5_r-of-Teflon-Polyester-FR4-G10-or-FR4-with-an-RF-generator-and-a-good-bolometer.pdf
  
  
rfmeasurement/ringresonatormethod.1634771287.txt.gz Β· Last modified: 2023/02/11 17:30 (external edit)
Except where otherwise noted, content on this wiki is licensed under the following license: CC Attribution-Noncommercial-Share Alike 4.0 International
CC Attribution-Noncommercial-Share Alike 4.0 International Donate Powered by PHP Valid HTML5 Valid CSS Driven by DokuWiki