| 1. Before We Start.mp4 | 16.3 MB | ||
| 1. Before We Start.srt | 1.2 KB | ||
| 1. Design of Microstrip Patch Antenna using Ceramic on 1.6mm thick substrate.mp4 | 41.5 MB | ||
| 1. Design of Microstrip Patch Antenna using Ceramic on 1.6mm thick substrate.srt | 6 KB | ||
| 1. Design of Microstrip Patch Antenna using Polystyrene on 1.6mm thick substrate.mp4 | 34.2 MB | ||
| 1. Design of Microstrip Patch Antenna using Polystyrene on 1.6mm thick substrate.srt | 4.6 KB | ||
| 1. Design of Microstrip Patch Antenna using Rogers6002 on 1.6mm thick substrate.mp4 | 42 MB | ||
| 1. Design of Microstrip Patch Antenna using Rogers6002 on 1.6mm thick substrate.srt | 6.1 KB | ||
| 1. Design of microstrip patch antenna.mp4 | 47.4 MB | ||
| 1. Design of microstrip patch antenna.srt | 5.6 KB | ||
| 10. Optimization of the Microstrip Patch Antenna.mp4 | 50.4 MB | ||
| 10. Optimization of the Microstrip Patch Antenna.srt | 6.3 KB | ||
| 10. Result Analysis of Rogers5880 and FR4 Substrate with different thickness.mp4 | 82.5 MB | ||
| 10. Result Analysis of Rogers5880 and FR4 Substrate with different thickness.srt | 8.2 KB | ||
| 11. Frequency range for Rogers5880 and FR4 Substrate and which one is better.mp4 | 68.6 MB | ||
| 11. Frequency range for Rogers5880 and FR4 Substrate and which one is better.srt | 6.4 KB | ||
| 11. Optimization of feed length and width.mp4 | 26.9 MB | ||
| 11. Optimization of feed length and width.srt | 3 KB | ||
| 12. Feed optimization continued.mp4 | 36.1 MB | ||
| 12. Feed optimization continued.srt | 4.6 KB | ||
| 13. Feed optimization simulation results.mp4 | 18.6 MB | ||
| 13. Feed optimization simulation results.srt | 2.7 KB | ||
| 14. Design of Microstrip Patch Antenna with 3.2mm thick FR4 substrate.mp4 | 56.7 MB | ||
| 14. Design of Microstrip Patch Antenna with 3.2mm thick FR4 substrate.srt | 4.8 KB | ||
| 15. Result Analysis.mp4 | 38.8 MB | ||
| 15. Result Analysis.srt | 3.6 KB | ||
| 16. Result Analysis Continued....mp4 | 49.8 MB | ||
| 16. Result Analysis Continued....srt | 6.5 KB | ||
| 17. Microstrip Patch Antenna Optimization.mp4 | 28.1 MB | ||
| 17. Microstrip Patch Antenna Optimization.srt | 3.1 KB | ||
| 18. Design of Microstrip Patch Antenna with 4.8mm thick FR4 substrate.mp4 | 45 MB | ||
| 18. Design of Microstrip Patch Antenna with 4.8mm thick FR4 substrate.srt | 4.2 KB | ||
| 19. Simulations result analysis.mp4 | 61.6 MB | ||
| 19. Simulations result analysis.srt | 6.6 KB | ||
| 2. Design of Microstrip Patch Antenna on 1.6mm thick substrate Result analysis.mp4 | 22.9 MB | ||
| 2. Design of Microstrip Patch Antenna on 1.6mm thick substrate Result analysis.srt | 3.7 KB | ||
| 2. Design of Microstrip Patch Antenna using Ceramic on 3.2mm thick substrate.mp4 | 35.2 MB | ||
| 2. Design of Microstrip Patch Antenna using Ceramic on 3.2mm thick substrate.srt | 4.5 KB | ||
| 2. Microstrip patch antenna introduction.mp4 | 134.2 MB | ||
| 2. Microstrip patch antenna introduction.srt | 14.8 KB | ||
| 2. Result Analysis.mp4 | 25.1 MB | ||
| 2. Result Analysis.srt | 4.1 KB | ||
| 20. Comparative analysis of microstrip patch antenna different substrate thickness.mp4 | 69.6 MB | ||
| 20. Comparative analysis of microstrip patch antenna different substrate thickness.srt | 7.6 KB | ||
| 3. Characteristics of Microstrip Patch Antenna, Advantages.mp4 | 71.8 MB | ||
| 3. Characteristics of Microstrip Patch Antenna, Advantages.srt | 6.9 KB | ||
| 3. Design of Microstrip Patch Antenna using Ceramic on 4.8mm thick substrate.mp4 | 35.9 MB | ||
| 3. Design of Microstrip Patch Antenna using Ceramic on 4.8mm thick substrate.srt | 4.3 KB | ||
| 3. Design of Microstrip Patch Antenna using Polystyrene on 3.2mm thick substrate.mp4 | 60.2 MB | ||
| 3. Design of Microstrip Patch Antenna using Polystyrene on 3.2mm thick substrate.srt | 7.8 KB | ||
| 3. Design of Microstrip Patch Antenna using Rogers6002 on 3.2mm thick substrate.mp4 | 72 MB | ||
| 3. Design of Microstrip Patch Antenna using Rogers6002 on 3.2mm thick substrate.srt | 9.4 KB | ||
| 3. How Rogeers5880 affects the performance of microstrip patch antenna.mp4 | 60.1 MB | ||
| 3. How Rogeers5880 affects the performance of microstrip patch antenna.srt | 5.7 KB | ||
| 4. Applications of MSA.mp4 | 22.9 MB | ||
| 4. Applications of MSA.srt | 2 KB | ||
| 4. Comparative analysis of microstrip patch antenna substrate (Ceramic).mp4 | 41 MB | ||
| 4. Comparative analysis of microstrip patch antenna substrate (Ceramic).srt | 4.3 KB | ||
| 4. Design of Microstrip Patch Antenna using Polystyrene on 4.8mm thick substrate.mp4 | 40.5 MB | ||
| 4. Design of Microstrip Patch Antenna using Polystyrene on 4.8mm thick substrate.srt | 5.2 KB | ||
| 4. Design of Microstrip Patch Antenna using Rogers6002 on 4.8mm thick substrate.mp4 | 59 MB | ||
| 4. Design of Microstrip Patch Antenna using Rogers6002 on 4.8mm thick substrate.srt | 7.5 KB | ||
| 4. Effect of permittivity on gain of the MSA.mp4 | 37 MB | ||
| 4. Effect of permittivity on gain of the MSA.srt | 3.4 KB | ||
| 5. Comparative analysis of microstrip patch antenna different substrate thickness.mp4 | 64.1 MB | ||
| 5. Comparative analysis of microstrip patch antenna different substrate thickness.srt | 6.5 KB | ||
| 5. Design of Microstrip Patch Antenna at 3.5 GHz with 3.2mm thick Rogers substrate.mp4 | 38.8 MB | ||
| 5. Design of Microstrip Patch Antenna at 3.5 GHz with 3.2mm thick Rogers substrate.srt | 5.2 KB | ||
| 5. Different Feed Technique.mp4 | 121.1 MB | ||
| 5. Different Feed Technique.srt | 11.5 KB | ||
| 6. Design steps of Microstrip Patch Antenna.mp4 | 79.8 MB | ||
| 6. Design steps of Microstrip Patch Antenna.srt | 7.5 KB | ||
| 6. Far field cut of the MSA antenna.mp4 | 29.3 MB | ||
| 6. Far field cut of the MSA antenna.srt | 4.1 KB | ||
| 7. Design of Microstrip Patch Antenna at 3.5 GHz with 4.8mm thick Rogers substrate.mp4 | 39.8 MB | ||
| 7. Design of Microstrip Patch Antenna at 3.5 GHz with 4.8mm thick Rogers substrate.srt | 5.8 KB | ||
| 7. Microstrip Patch Antenna Design using FR4 Substrate at 3.5GHz.mp4 | 68.5 MB | ||
| 7. Microstrip Patch Antenna Design using FR4 Substrate at 3.5GHz.srt | 8.7 KB | ||
| 8. Optimization and Result Analysis of MSA.mp4 | 51.1 MB | ||
| 8. Optimization and Result Analysis of MSA.srt | 5.7 KB | ||
| 8. Result Analysis.mp4 | 28.8 MB | ||
| 8. Result Analysis.srt | 4.2 KB | ||
| 9. Comparison of the antenna performance with different substrate thickness.mp4 | 80 MB | ||
| 9. Comparison of the antenna performance with different substrate thickness.srt | 8.6 KB | ||
| 9. Gain, Directivity, Efficiency and Power radiated plot.mp4 | 27.6 MB | ||
| 9. Gain, Directivity, Efficiency and Power radiated plot.srt | 4.1 KB | ||
| Bonus Resources.txt | 307.2 B | ||
| Get Bonus Downloads Here.url | 204.8 B | ||
| RAHAE209-L_LectureNotes_08022021.pdf | 5 MB | ||
| ▲ 91 total files | |||
Microstrip Patch Antenna Design using Keysight PathWave ADS
Last Update: 8/2021
Duration: 4h 16m | Video: .MP4, 1280x720 30 fps | Audio: AAC, 44.1 kHz, 2ch | Size: 2.16 GB
Genre: eLearning | Language: English
Learn how to Design & Analyze Microstrip Patch Antennas using Different Feeds & Substrates using Keysigh ADS RAHAE209-L
What you'll learn:
Microstrip Patch Antenna Design using Keysight ADS
Design and Analysis of Microstrip Patch Antenna using Rogers5880 with Keysight ADS
Characteristics of Microstrip Patch Antenna, Advantages
Different Feed Technique
Optimization and Result Analysis of MSA
Requirements:
Prerequisite for students planning to get RAHAE209-L course which is a complete package of Microstrip Patch antenna design in ADS using different feeds and substrate courses RAHAE101 and RAHAE201 from Rahsoft Antenna Engineering Certificate or equivalent.
Antenna Fundamentals
Electromagnetics
Description:
Description
In RAHAE 209-L we would be concentrating on Hand on Antenna Design using PathWave Advanced Design System (ADS). This course will cover Antenna design using different feed techniques. This course will help you to learn design steps of Microstrip Patch Antenna with the help of equations and design part in ADS. This course help to design different feeds to feed the patch antenna. The comparative analysis of different feeds and substrate with different thickness of dielectric material is included in this course. Easily understanding of antenna parameters like S-parameter, Realized gain, Efficiency, Directivity with the help of ADS software.
PLEASE NOTE PathWave Advanced Design System (ADS) software is not provided in this course however you can ask for a 1 month free trial through Keysight and also ask for extension (which most of our students have been able to extend up to additional 2 months)
You can also ask your school for the software if you are a student
Course content
Introduction
Chapter:1 Microstrip Patch Antenna
Microstrip patch antenna introduction
Characteristics of Microstrip Patch Antenna, Advantages
Applications of MSA
Different Feed Technique
Design steps of Microstrip Patch Antenna
Design of Microstrip Patch Antenna at 3.5 GHz
Microstrip Patch Antenna Design using FR4 Substrate at 3.5GHz
Result Analysis of Microstrip Patch Antenna
Optimization and Result Analysis of MSA
Gain, Directivity, Efficiency and Power radiated plot
Optimization of the Microstrip Patch Antenna
Optimization of feed length and width
Feed optimization continued
Feed optimization simulation results
Design of Microstrip Patch Antenna at 3.5 GHz with 3.2mm thick substrate
Design of Microstrip Patch Antenna with 3.2mm thick FR4 substrate
Result Analysis
Result Analysis Continued...
Microstrip Patch Antenna Optimization
| torrent name | size | uploader | age | seed | leech |
|---|---|---|---|---|---|
| 500.4 MB | freecoursewb | 6 days | 0 | 0 |
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