아주대 통합설계프로젝트1 전파테크(이해영교수님) 결과5 passive component design, Microstrip line
- 최초 등록일
- 2014.10.05
- 최종 저작일
- 2011.06
- 8페이지/ 한컴오피스
- 가격 1,500원
소개글
아주대 통합설계프로젝트1 전파/RF테크 이해영 교수님 A+받은 레포트입니다.
한번도 배포된적 없는 100% 창작 자료입니다. .
passive component , Microstrip line 관련 결과 레포트입니다.
RF/전파 관련 졸업작품 및 졸업프로젝트 진행중이신 분들이 참고하시면 좋은 자료입니다.
많은 도움 되시길 바랍니다.
목차
1. Analysis of result datas (Question & Answer)
1) Process of Design to make Coupled Line Band Pass Filter
2) Why not accurate fit center frequency
3) What are the differents between result of HFSS and ADS, and Why generate difference.
2. Reference
본문내용
Capstone Design Project 1
[ Lab 5. HFSS advanced education (passive component design) ]
● Analysis of result datas (Question & Answer)
1. Process of Design to make Coupled Line Band Pass Filter
(1) Circuit and graph
① Using ADS
CKT of Coupled line band pass filter using MCLIN in ADS
S-Parameter graph of BPF in ADS
Zoom in scale of S-parameter
② Using HFSS
CKT of Coupled line band pass filter in HFSS
CKT of Coupled line band pass filter in HFSS
CKT of Coupled line band pass filter in HFSS
S-Parameter graph of BPF in HFSS
(2) Spec of design
Object: Fabricate Coupled Line Band Pass Filter
Cut-off frequency: 2GHz
Order N: 3
Impedance: 50ohm
Characteristic: 0.5dB equal ripple
(3) Answer
→ In this experiment, we can easily calculate length, width and impedance of coupled line band pass filter by low-pass prototype value gn, admittance inverter constants Jn and even-odd characteristic impedances from the table at page 426 in the Microwave Engineering.
참고 자료
MICROWAVE TRANSISTOR AMPLIFIERS(2th), Guillermo Gonzalez
RF Power Amplifiers for Wireless Communications(3th), Cripps Steve C.
Microwave Engineering(3rd), David M.Pozar
www.rfdh.com
www.wikipedia.org
www.rf114.com
www.naver.com